CN105057430A - Multi-station feeding mechanism for hydraulic drawing machine - Google Patents

Abstract

The invention discloses a multi-station feeding mechanism for a hydraulic drawing machine. The multi-station feeding mechanism comprises a supporting seat, a feeding seat arranged on the supporting seat, a sliding block and a cylinder. A sliding device is arranged on the supporting seat. The sliding block is driven by the cylinder to move along the sliding device. A first discharging hole, a second discharging hole and a third discharging hole are formed in the feeding seat, the sliding block and the sliding device respectively. The multi-station feeding mechanism for the hydraulic drawing machine is matched with a multi-station hydraulic drawing mechanism, materials are conveyed into a mold of the drawing mechanism from a vibration disc in order, the reliable automatic feeding mechanism is provided for drawing the materials, the automation degree and the drawing efficiency of the hydraulic drawing machine are further improved, and the drawing process is simplified.

Description

The multistation feeding mechanism of hydraulic tensioner

Technical field

The present invention relates to a kind of hydraulic tensioning equipment, particularly relate to the materials and parts automatic feeding mechanism of hydraulic tensioner.

Background technology

For the product that light sheet is shaping, due to hydraulic tensioning have easy to process, be easy to the advantages such as shaping special shape part, therefore product many employings hydraulic tensioning that a lot of light sheet is shaping at present completes its processing, and due to the elastic deformation in material extending process be in certain range of stretch, therefore, the drawing process being drawn into shaped piece generally all needs just can complete through the stretching of multiple working procedure.

And at present, the such stretching process of per pass is completed by a hydraulic tensioner, or for the hydraulic tensioner of a multistation, per pass stretching process all needs product to be tensioned to load in the mould of hydraulic tensioner, after hydraulic tensioning action, takes out product to be tensioned, then be placed in down in the mould of one stretching process, proceed next step stretching, so repeat, until complete the stretching of product.And such drawing process is owing to needing product repeatedly also to take out from the mould of a stretching station, stretch again after putting into the mould location of next stretching station, therefore, the more time-consuming expense of drawing process.Meanwhile, the charging of stretching-machine will ensure, after the stretching process all to materials and parts completes, can be sent in the mould of stretching-machine by next materials and parts in an orderly manner.

Summary of the invention

The object of the present invention is to provide a kind of multistation feeding mechanism of hydraulic tensioner, it is for coordinating the drawing mechanism of multistation, for its automation sends materials and parts in an orderly manner, to ensure the reliability of the charging of hydraulic tensioner, improve the draw efficiency of hydraulic tensioner further.

For realizing above goal of the invention, the present invention proposes a kind of multistation feeding mechanism of hydraulic tensioner, described feeding mechanism comprises supporting seat, be located at the charging seat on supporting seat, slide block and cylinder, described supporting seat is provided with carriage, described slide block moves along described carriage under the drive of described cylinder, described charging seat, slide block and carriage is respectively arranged with the first material-dropping hole, the second material-dropping hole and the 3rd material-dropping hole.

Preferably, the upper surface of described slide block is an inclined-plane, and the angle between the carriage sliding surface of this inclined-plane and slide block direction of propulsion is 160-170 degree.

Preferably, the lateral section of described charging seat is T-shaped, and it is fixed on described supporting seat by securing member.

Preferably, described slide block has and is positioned at primary importance on carriage and the second place, when slide block is positioned at primary importance, the first material-dropping hole on slide block on the second material-dropping hole and charging seat aligns through, when slide block moves to the second place under the propelling of described cylinder, the 3rd material-dropping hole on described second material-dropping hole and carriage aligns through.

Preferably, described hydraulic tensioner is also provided with punch and the die of stretching materials and parts, described die is movable to the below of described carriage the 3rd material-dropping hole, makes materials and parts fall into die from the 3rd material-dropping hole.

Preferably, described die is located on die Mobile base, moves to the stretch process of Working position with punch coordinate after carrying out multiple working procedure after driving die materials and parts to enter die by die Mobile base.

Compared with prior art, the multistation feeding mechanism of disclosed hydraulic tensioner, it coordinates the hydraulic tensioning mechanism of multistation, materials and parts are sent in the mould of drawing mechanism a group by a group, in an orderly manner from vibrating disk, stretching for materials and parts provides reliable automation feeding mechanism, further increase automaticity and the draw efficiency of hydraulic tensioner, simplify drawing process.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the multistation feeding mechanism of hydraulic tensioner of the present invention;

Fig. 2 is the schematic side view of the multistation feeding mechanism of hydraulic tensioner of the present invention;

Fig. 3 is the schematic side view of hydraulic tensioner of the present invention;

Fig. 4 is the cross-sectional schematic of hydraulic tensioner of the present invention;

Fig. 5 is the schematic top plan view of hydraulic tensioner of the present invention;

Fig. 6 is the cross-sectional schematic of hydraulic tensioner of the present invention local.

Description of reference numerals

Die Mobile base 1, servomotor 2, die 3, punch 4, punch connector 5, guide upright post 6, the first hydraulic cylinder 7, receives module 11, installation position 12, die gland 13, board 15, spring 61, feeding mechanism 8, materials and parts ejecting mechanism 9, supporting seat 81, feed block 82, slide block 83, first material-dropping hole 84, chute 85, inclined-plane 86, the second material-dropping hole 87,3rd material-dropping hole 88, push rod 92, push rod connector 93, push rod perforation 94.

Detailed description of the invention

Below in conjunction with accompanying drawing of the present invention, clear, complete description is carried out to the technical scheme of the embodiment of the present invention.

The multistation feeding mechanism of disclosed hydraulic tensioner, it is connected with a vibrating disk (not shown), for the materials and parts in vibrating disk are sent into successively in an orderly manner hydraulic tensioner drawing die in carry out stretch processing.

Composition graphs 1, Fig. 2, shown in Fig. 3, the top of hydraulic tensioner board 15 is located at by described feeding mechanism 8, and it comprises supporting seat 81, is located at the feed block 82 on supporting seat 81, slide block 83, and the cylinder 89 that promotion slide block moves back and forth, described feed block 82 is fixedly installed on supporting seat 81, is provided with the first material-dropping hole 84.Described slide block 83 is symmetricly set in supporting seat 81 and is positioned on the carriage of feed block 82 both sides, an inclined-plane 86 is arranged in its upper surface, carriage in the present embodiment is chute 85, in other embodiments, can also be that other complete the slide mechanism of sliding function.In the angle of 160 ~ 170 degree between the sliding surface of the chute of chute 85 and slide block direction of advance, this inclined-plane is provided with the second material-dropping hole 87.As shown in the figure, the front end of the chute 85 of supporting seat 81 is also provided with the 3rd material-dropping hole 88.

When needs charging, slide block 83 is positioned at the primary importance of chute 85 rear end, now the first material-dropping hole 84 and the second material-dropping hole 87 in the vertical direction align, materials and parts fall into the second material-dropping hole 87 by the first material-dropping hole 84, next, slide block 83 is pushed ahead by cylinder 89, slide block 83 is made to arrive the second place, the second material-dropping hole 87 now on slide block 83 aligns with the 3rd material-dropping hole 88 in chute 85, materials and parts in second material-dropping hole 87 fall under gravity in the 3rd material-dropping hole 88, and then the first group of die 3 alignd below the 3rd material-dropping hole 88 and with it is fallen into through the 3rd material-dropping hole 88, and now, the below of the first material-dropping hole 84 is blocked by the inclined-plane of slide block rear end, materials and parts wherein can not fall, until slide block 83 is retracted into the primary importance that the second material-dropping hole 87 and the first material-dropping hole 84 align, thus ensure that the materials and parts die 3 of falling into a group by a group carries out stretch process.

Shown in composition graphs 4-6, hydraulic tensioner of the present invention also comprises Multi-position drawing mechanism, and it comprises die Mobile base 1, servomotor 2, several die 3, punch 4, punch connector 5, guide upright post 6, first hydraulic cylinder 7, described die Mobile base 1 is arranged on the board 15 of hydraulic tensioner, and one end of die Mobile base 1 is provided with the reception module 11 of servomotor 2 control information, and this reception module 11 can drive die Mobile base 1 to move linearly forward or backward under the control of servomotor.Die Mobile base 1 is provided with several installation positions 12 of accommodating described die 3 and die is reliably installed with the die gland 13 in this installation position, can an accommodating die 3 in each installation position 12 described, after die 3 is placed in installation position 12, its upper end cover upper cavity die gland 13, to be fixed on die 3 in the installation position 12 of die Mobile base 1 more reliably.

Described servomotor 2 is installed on one end of die Mobile base 1, and it is for accurately controlling the displacement of die Mobile base 1 by receiving module 11.

The top of die Mobile base 1 is located at by described punch 4, it is installed on punch connector 5, punch connector 5 is connected with the first hydraulic cylinder 7, first hydraulic cylinder 7 is connected with hydraulic control system (not shown), described punch 4 and punch connector 5 pump under the drive of the first hydraulic cylinder 7, in the present invention, the position at the die place immediately below punch 4 is called stretching station, the position be positioned at directly over stretching station at punch 4 place is called the initial position of punch, moved by the horizontal linear of die Mobile base 1 below punch 4, multiple die 3 is made to move to stretching station successively, stretched with coordinating between the die being positioned at stretching station by punch 4, materials and parts in mould are carried out stretch processing.

Further, described board 15 is fixedly installed guide upright post 6, described guide upright post 6 is positioned at the both sides of punch 4, the two ends of described punch connector 5 are arranged on described guide upright post 6, and guide upright post 6 below punch connector 5 is provided with spring 61, under the effect of the first hydraulic cylinder 7 and spring 52, punch connector 5 pumps along guide upright post 6, further, punch 4, under the drive of punch connector 5, carries out upper and lower reciprocating motion between the position of initial position and stretching station.

Hydraulic tensioner of the present invention also comprises materials and parts ejecting mechanism 9, described materials and parts ejecting mechanism 9 is located at the below of board 15 times side stretching stations, its also with another hydraulic cylinder (the second hydraulic cylinder, figure does not show) be connected, under the control of hydraulic system, after punch 4 and die 3 matched moulds stretching materials and parts, when punch 4 upwards shifts out from die 3, materials and parts are ejected from die mouth, makes materials and parts be sheathed on the outside of punch 4, so that punch 4 drives materials and parts to carry out lower stretching process together.Specifically, described ejecting mechanism 9 comprises push rod 92, push rod connector 93, is located at the push rod perforation 94 of die Mobile base 1 installation position 12 and female bottom, and the second hydraulic cylinder be connected with push rod, and the second hydraulic cylinder 91 is connected with described hydraulic control system.

During stretch process, as shown in Figure 6, first, materials and parts to be processed are sent in die 3 by feeding mechanism 8 from vibrating disk (not shown), be that two materials and parts fall into die foremost (started by Fig. 4 die Mobile base the direction of movement and A to being defined as front end) simultaneously in the present embodiment, die Mobile base 1 is driven to move by servomotor 2, make die foremost move to be positioned to stretch immediately below punch 4 position of station, now, punch 4 is under the drive of the first hydraulic cylinder 7 hydraulic coupling, move down and stretch into the die be foremost arranged on stretching station materials and parts are stretched, after operation to be tensioned completes, punch 4 upwards shifts out, simultaneously, materials and parts in stretching station upper cavity die 3 are ejected die mouth by materials and parts ejecting mechanism 9 under the effect of the second hydraulic cylinder, materials and parts are sheathed on punch 4 and are moved upward to the initial position of punch 4.

Next, die Mobile base 1, under the drive of servomotor 2, moves forward a station, makes next group die 3 move to the position of stretching station, to carry out lower stretching process together.Simultaneously, hydraulic cylinder drives punch 4 to move down together with materials and parts again, punch 4 is made to enter in next group die 3 stretch process of carrying out again together with materials and parts, to be processed complete after by ejecting mechanism 9, materials and parts are ejected die mouth, it is outer and retract initial position with punch that materials and parts are set in punch 4, reciprocal successively, until the materials and parts after processing are shifted out equipment after completing all stretch process operations.

Technology contents of the present invention and technical characteristic have disclosed as above; but those of ordinary skill in the art still may do all replacement and the modification that do not deviate from spirit of the present invention based on teaching of the present invention and announcement; therefore; scope should be not limited to the content that embodiment discloses; and various do not deviate from replacement of the present invention and modification should be comprised, and contained by present patent application claim.

Claims (6)

1. the multistation feeding mechanism of a hydraulic tensioner, it is characterized in that: described feeding mechanism comprises supporting seat, be located at the charging seat on supporting seat, slide block and cylinder, described supporting seat is provided with carriage, described slide block moves along described carriage under the drive of described cylinder, described charging seat, slide block and carriage are respectively arranged with the first material-dropping hole, the second material-dropping hole and the 3rd material-dropping hole.

2. the multistation feeding mechanism of hydraulic tensioner according to claim 1, is characterized in that: the upper surface of described slide block is an inclined-plane, and the angle between the carriage sliding surface of this inclined-plane and slide block direction of propulsion is 160-170 degree.

3. the multistation feeding mechanism of hydraulic tensioner according to claim 1, it is characterized in that: the lateral section of described charging seat is T-shaped, it is fixed on described supporting seat by securing member.

4. the multistation feeding mechanism of hydraulic tensioner according to claim 1, it is characterized in that: described slide block has and is positioned at primary importance on carriage and the second place, when slide block is positioned at primary importance, the first material-dropping hole on slide block on the second material-dropping hole and charging seat aligns through, when slide block moves to the second place under the propelling of described cylinder, the 3rd material-dropping hole on described second material-dropping hole and carriage aligns through.

5. the multistation feeding mechanism of hydraulic tensioner according to claim 1, it is characterized in that: the punch and the die that described hydraulic tensioner are also provided with stretching materials and parts, described die is movable to the below of described carriage the 3rd material-dropping hole, makes materials and parts fall into die from the 3rd material-dropping hole.

6. the multistation feeding mechanism of hydraulic tensioner according to claim 1, it is characterized in that: described die is located on die Mobile base, after driving die materials and parts to enter die by die Mobile base, move to the stretch process of carrying out multiple working procedure after Working position coordinates with punch.