CN103128280A - Upper sliding block suppressing force display mechanism of powder make-up machine - Google Patents

Upper sliding block suppressing force display mechanism of powder make-up machine Download PDF

Info

Publication number
CN103128280A
CN103128280A CN 201110376145 CN201110376145A CN103128280A CN 103128280 A CN103128280 A CN 103128280A CN 201110376145 CN201110376145 CN 201110376145 CN 201110376145 A CN201110376145 A CN 201110376145A CN 103128280 A CN103128280 A CN 103128280A
Authority
CN
China
Prior art keywords
sliding block
cylinder piston
air cylinder
suppressing force
machine
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN 201110376145
Other languages
Chinese (zh)
Inventor
冯金玉
潘学仁
冯怿周
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yangzhou Haili Precision Machinery Manufacturing Co Ltd
Original Assignee
Yangzhou Haili Precision Machinery Manufacturing Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Yangzhou Haili Precision Machinery Manufacturing Co Ltd filed Critical Yangzhou Haili Precision Machinery Manufacturing Co Ltd
Priority to CN 201110376145 priority Critical patent/CN103128280A/en
Publication of CN103128280A publication Critical patent/CN103128280A/en
Pending legal-status Critical Current

Links

Abstract

The invention relates to an upper sliding block suppressing force display mechanism of a powder make-up machine. The upper sliding block suppressing force display mechanism of the powder make-up machine is characterized by being arranged between an upper sliding block air cylinder plate and an upper connecting plate, comprising a hydraulic die cushion oil cylinder piston which is arranged on the lower portion of the upper sliding block air cylinder plate and a hydraulic die cushion oil chamber which is formed between the upper sliding block air cylinder plate and the hydraulic die cushion oil cylinder piston, and an upper air cylinder piston which is arranged on the lower portion of the hydraulic die cushion oil cylinder piston and connected with the upper connecting plate; and an upper air cylinder crash pad which is connected with the lower portion of the upper air cylinder piston is arranged on the lower portion of the upper air cylinder piston. The upper sliding block suppressing force display mechanism of the powder make-up machine adds a hydraulic die cushion pressure display mechanism which does not exist before, or is arranged on the lower position of a ball bowl piston, what is reflected is multiple aspect synthetic suppressing forces, after improvement, a placing position of the suppressing force display mechanism can authentically reflect the variable condition of die cavity suppressing force, namely real-time suppressing force is displayed, and so that timely adjustment by operating staff is convenient. In the meantime, the upper sliding block suppressing force display mechanism of the powder make-up machine can prevent a snap gauge from turning in a smothering mode and is convenient to turn reversely.

Description

Upper slide block of powder forming machine press power indication mechanism
Technical field
The present invention relates to a kind of upper slide block of powder forming machine press power indication mechanism, belong to powder metallurgical technology.
Background technology
The top shoe briquetting machine is the important component part of powder metallurgy, the quality of its quality directly affects the quality of moulded products, there is following defective in existing top shoe briquetting machine: can not reflect the press power that upper punch is downward, can't know the situation of change of press power in die cavity, can not in time adjust timely the size of press power according to the actual conditions of goods, affect the product molding quality; And stuck in former the time when upper punch, due to the existence of upper press power, be difficult to out anti-car upper punch is deviate from former, deviate to be easy to damage by force mechanism, cause damage.
Summary of the invention
The present invention is directed to defects, purpose is to provide a kind of upper slide block of powder forming machine press power indication mechanism that can reflect in real time reliably the press power size.
The technical solution used in the present invention is for this reason: be arranged between top shoe air cylinder board and upper junction plate, comprise the hydraulic cushion cylinder piston that is arranged on top shoe air cylinder board bottom and by the hydraulic die cushion oil pocket that forms between the two, the upper cylinder piston that is connected with upper junction plate is established in hydraulic cushion cylinder piston bottom; The upper cylinder cushion pad of its connection is established in upper cylinder piston bottom.
Advantage of the present invention is: increase hydraulic die cushion pressure indication mechanism, this mechanism or be arranged on ball bowl piston below not in the past, what reflect is many-sided synthetic press power, and the position that process is put after improving can reflect the situation of change of die cavity press power really, namely directly demonstrate real-time press power, convenient operation personnel's timely adjustment; Simultaneously can prevent the vexed car of snap gauge, be convenient to out anti-car.
Description of drawings
Fig. 1 is structural representation of the present invention.
Fig. 2 is the structural representation of pressing adjusting mechanism.
In figure, 1 changes plate for bulb for bulb spline circle, 17 for worm screw, 16 for worm gear, 15 for ball screw, 14 for top shoe connecting rod, 13 for driving crank, 12 for top shoe ball screw guiding mechanism, 11;
2 is that top shoe, 3 is that alignment pin, 4 is the piston alignment pin;
5 is that hydraulic die cushion pressure indication mechanism, 51 is that upper cylinder piston, 52 is that hydraulic cushion cylinder piston, 53 is that top shoe air cylinder board, 54 is that upper junction plate, 55 is the upper cylinder cushion pad;
6 is that guide pillar, 62 is fairlead for protecting mould emptier, 61;
7 is that synchronously compacting and final pressing mechanism, 71 are that synchronous pressure liquefaction cylinder, 72 is that supporting seat, 74 is negative template for suppressing adjusting screw(rod), 73;
8 for powder compaction move powder mechanism, 81 for move powder cylinder, 82 for locking nut, 83 for moving powder bar contiguous block, 84 for moving powder bar briquetting.
The specific embodiment
Be described in further detail to the present invention and in conjunction with whole mechanism below in conjunction with accompanying drawing:
1, top shoe ball screw guiding mechanism 1:
This mechanism: (1), when being used for compacting, the amount of pressurization of upper punch is adjusted, namely adjust the top shoe mechanism that comprises top shoe 2; (2) drive top shoe connecting rod 12 by driving crank 11, complete the pressurization pressing process of top shoe 2; Can regulate the shut height of machine by adjusting this mechanism when (3) machine assembles, its process is as follows: rotate and drive worm gear 14 rotations by driven by motor worm screw 15, ball screw 13 is by bulb spline circle 16 splines, it can only be moved up and down under the drive of worm gear 14, drive top shoe mechanism and move up and down thereby change plate 17 by bulb, complete adjustment process.
2, hydraulic die cushion pressure indication mechanism 5:
operational forces when this mechanism suppresses whole top shoe briquetting machine is carried out Real Time Monitoring, its principle is injection pressure oil in oil pocket between hydraulic cushion cylinder piston 52 and top shoe air cylinder board 53, this oil pocket is connected with pressure sensor, the pressure from the upper punch on mould bases that upper junction plate 54 bears, reach the hydraulic die cushion oil pocket by upper cylinder piston 51 and hydraulic cushion cylinder piston 52, show in real time on touch-screen by PLC again, when another function of this mechanism is the vexed car of machine pressing, namely working as upper punch is stuck in former, can bleed off the pressure oil in hydraulic die cushion, top is unclamped, so that process upper punch or drive anti-car, are connected with alignment pin and realize connect by establishing piston alignment pin 4 between top shoe ball screw guiding mechanism 1 of the present invention and top shoe air cylinder board 53.
3, protection mould emptier 6:
Its operation principle is top shoe mechanism under driving crank 11 effects downwards after end-of-job, upwards make drawback movement, after also namely suppressing end-of-job, machine is done demoulding campaign, namely goods are deviate from the cavity impression on mould bases, this process is that former moves downward, and bottom punch is motionless, and goods are ejected die cavity.For prevent that goods from ftractureing in deviating from process; when upper punch moves on top shoe 2 backhauls; the 51 upper end ventilations of upper cylinder piston; upper cylinder piston 51 moves downward the drive upper punch and moves downward; although top shoe 2 drives upper punch and moves upper; but because the piston rod of upper cylinder piston 51 is moving down; the relative position that makes upper punch be pressed on goods does not change; upper punch is compressed on goods with a constant force all the time; until goods are deviate from die cavity fully, reach the purpose of the protection demoulding.Its course of work is: driving crank 11 drives top shoe 2 and moves downward end, move on top shoe 2, and demoulding action beginning, the 51 upper end ventilations of upper cylinder piston move downward it, and beginning angle is that 170 degree left and right beginnings finish to 280 degree; Upper cylinder piston 51 lower end ventilations after finishing, piston reset is up, and an impulse stroke finishes.For preventing that being reset to terminal point produces shock, increase upper cylinder cushion pad 56 herein, to reach the purpose of the buffering that resets; In addition for making descending reliable and stable, the accurate positioning shaping-orientation post guiding mechanism of upper cylinder piston 51, be that upper junction plate 54 connects upper cylinder piston 51 and led by both sides guide pillar 61, move up and down in guide pillar 61 fairleads 62, are connected the corresponding construction part of the utmost point and connection thereof with anti-rotation upper cylinder piston with guiding.
4, synchronously the compacting and final pressing mechanism 7:
The operation principle of this mechanism is to come execution by a pair of synchronous pressure liquefaction cylinder 71 that is connected on top shoe air cylinder board 53, mechanism moves downwards by top shoe, driving synchronous pressure liquefaction cylinder 71 moves down, to being pressed onto on compacting adjusting screw(rod) 72, drive negative template 74 by supporting seat 73 and force to move down, to reach the upwards purpose of pressurization of bottom punch; The size of synchronous pressing stroke is regulated (being exactly in fact the adjusting to the goods volume under pressure) by compacting adjusting screw(rod) 72; When negative template 74 is stopped when motionless by lower block, top shoe 2 continues to move downward, the 71 overflow valve overflows of synchronous pressure liquefaction cylinder, cylinder piston rod is retracted along with moving down of upper punch, until upper pressurization finishes fully, namely top shoe 2 strokes finish fully, i.e. the pressurization of upper punch to goods for the third time, its objective is and improve goods top density, improve the uniformity of extrudate density; Its sequence of movement is: drive top shoe 2 by driving crank 11 and move down, upper punch enters die cavity and powder is pressurizeed first, then synchronous pressure liquefaction cylinder 71 is pushed down compacting adjusting screw(rod) 72 and is driven negative template 74 compacting downwards and moves to certain stroke, completes pressure process for the second time; The supported block of negative template 74 this moment stops motionless, upper punch continues to move down with top shoe 2,71 overflows of synchronous pressure liquefaction cylinder, and piston resets along with moving down of upper punch and returns, upper punch continues to move downward until capable 2 journeys of top shoe finish, and completes final pressure process.
5, powder compaction is moved powder mechanism 8:
The purpose that designs this structure is to be the upper outside step design that is shaped, this mechanism is guaranteed the density of upper outside step, comprise moving powder cylinder 81 and being connected to move by locking nut 82 and move the powder extension bar on powder cylinder 81, move powder extension bar bottom and connect and move powder bar briquetting by moving powder bar contiguous block 83; Its principle is that utilization moves powder cylinder 81 and top shoe 2 together moves down, and next punching that promotes to be contained on float plate together moves down into the position that block is located, and float plate is stopped by block, and top shoe 2 continues to press down, and moves the retraction of powder cylinder piston rod, and outer step is pressed shaping.the design that moves powder mechanism need to be relevant with the dress powder form of former, the dress powder of outer step requires the centre many, few up and down, and actual dress powder structure can only realize that upper end dress powder is many, step broad in the middle is shaped needs more powder, come compressing in the middle of needing the upper end powder is moved to, the characteristics that at first the present invention contacts with former by moving powder bar briquetting 84, make former be subject to a downward power but keep motionless, it is subject to powder to its downward frictional resistance, powder is subject to the former inwall to its downward power conversely, it is moved downward, thereby make powder stream in the middle of former, thereby guarantee the Forming Quality of goods.

Claims (1)

1. upper slide block of powder forming machine press power indication mechanism, it is characterized in that, be arranged between top shoe air cylinder board and upper junction plate, comprise the hydraulic cushion cylinder piston that is arranged on top shoe air cylinder board bottom and by the hydraulic die cushion oil pocket that forms between the two, the upper cylinder piston that is connected with upper junction plate is established in hydraulic cushion cylinder piston bottom; The upper cylinder cushion pad of its connection is established in upper cylinder piston bottom.
CN 201110376145 2011-11-23 2011-11-23 Upper sliding block suppressing force display mechanism of powder make-up machine Pending CN103128280A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201110376145 CN103128280A (en) 2011-11-23 2011-11-23 Upper sliding block suppressing force display mechanism of powder make-up machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201110376145 CN103128280A (en) 2011-11-23 2011-11-23 Upper sliding block suppressing force display mechanism of powder make-up machine

Publications (1)

Publication Number Publication Date
CN103128280A true CN103128280A (en) 2013-06-05

Family

ID=48489093

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201110376145 Pending CN103128280A (en) 2011-11-23 2011-11-23 Upper sliding block suppressing force display mechanism of powder make-up machine

Country Status (1)

Country Link
CN (1) CN103128280A (en)

Similar Documents

Publication Publication Date Title
CN102500756A (en) Upper sliding block pressing mechanism of powder forming machine
CN202427944U (en) Upper slide block synchronous pressing and final pressurizing mechanism on powder forming machine
CN103128278A (en) Powder molding machine upper slide block protection demolding mechanism
CN202427943U (en) Press power display mechanism for upper sliding block of powder forming machine
CN202427942U (en) Upper slider suppressing powder moving mechanism for powder molding machine
CN202427947U (en) Upper slider pressing mechanism of powder forming machine
CN103128277A (en) Upper sliding block mechanism connecting structure of powder make-up machine
CN103128280A (en) Upper sliding block suppressing force display mechanism of powder make-up machine
CN204545339U (en) Microseism squeeze molding machine
CN202427945U (en) Connecting structure of upper sliding block mechanism of powder forming machine
CN202427946U (en) Upper slide block protection demoulding mechanism for powder moulding machine
CN103128276B (en) Upper slide block of powder forming machine is synchronously suppressed and final pressing mechanism
CN203003143U (en) Titanium sponge consumable electrode die
CN202087760U (en) Closed forging device
CN207043254U (en) The forging apparatus of upper punch zero load before a kind of closed die forming
CN103128279A (en) Upper sliding block suppressing powder-moving mechanism of powder make-up machine
CN202741473U (en) Ejection device for tetrastyle metal extrusion forming hydraulic press die
CN207521554U (en) Automobile A column negative angle forming bidirectional-movement wedge structure
CN203356363U (en) Novel automobile girder forming mold
CN202155179U (en) Automatic pressing height adjusting device for pyrophyllite parts
CN206186214U (en) Hydraulic press with a collection die sinking, compress tightly, device that three functions of leveling are integrative
CN204953680U (en) Box -like spare end time tensile mould
CN202639063U (en) Side forming small pressure core, and stamping die with the side forming small pressure core
CN103386488B (en) Powder metallurgy part sizing die frame plug adjusting device
CN206085566U (en) Injection mold's anti - mechanism that pushes away of drawing of patterns

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C02 Deemed withdrawal of patent application after publication (patent law 2001)
WD01 Invention patent application deemed withdrawn after publication

Application publication date: 20130605