CN206305451U - Alloy casting additive powder pressing equipment - Google Patents
Alloy casting additive powder pressing equipment Download PDFInfo
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- CN206305451U CN206305451U CN201621315537.8U CN201621315537U CN206305451U CN 206305451 U CN206305451 U CN 206305451U CN 201621315537 U CN201621315537 U CN 201621315537U CN 206305451 U CN206305451 U CN 206305451U
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- hydraulic cylinder
- upset
- vertical jacking
- support underframe
- alloy casting
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Abstract
The utility model discloses a kind of alloy casting additive powder pressing equipment, including support underframe, restocking, automatic feeding device, liftout drawing mechanism, hydraulic means and electric control gear;Liftout drawing mechanism is arranged on the underface in binder chamber, including the vertical jacking hydraulic cylinder, upset hydraulic cylinder and the discharging supporting plate that are vertically arranged, the piston end of vertical jacking hydraulic cylinder is articulated and connected with the baseplane of lower roof plate, cylinder body is fixedly mounted on inside support underframe, the two ends for overturning hydraulic cylinder are articulated and connected with the baseplane of lower roof plate and support underframe respectively, overturn the stroke of the stroke more than vertical jacking hydraulic cylinder of hydraulic cylinder, discharging, supporting plate is downward-sloping to be arranged on support underframe, and the reverses direction of the upper end correspondence lower roof plate of the supporting plate that discharges is set.This alloy casting additive powder pressing equipment can realize the self-emptying of pie structural materials body after the completion of compacting, be particularly well-suited to the compacting of larger-size alloy casting additive pie structural materials body.
Description
Technical field
The utility model is related to a kind of powder pressing equipment, specifically one kind suitable for alloy casting manufacturing process to adding
Plus the equipment that agent powder is suppressed, belong to alloy casting technical field.
Background technology
Alloy is by two or more metal and metal or nonmetallic smelting, mechanical alloying, sintering, gas phase
The synthesized material with metallic character after alloying technology such as deposition, typically by fusing into uniform liquid and solidification
, alloy is not the mixture in universal, it might even be possible to be pure substance, such as the interphase alloy of single-phase, is added
Plus alloying element can form solid solution, compound, and produce neither endothermic nor exothermic to react, so as to change the property of metallic matrix
Matter.
Existing alloy casting technique is reduced by the effective melting of guarantee, as far as possible because the alloying element surface added is by the external world
Gas or temperature influence and react the change of final alloy content for causing, typically first by the alloying element for being added of powdery
It is pressed into after well mixed with other catalyst such as flux after the pie of norminal size and weight again in metallic matrix liquation
Addition, due to needing pressure higher during additive powder pressing, therefore it is compressing after be difficult with compression chamber base plate
Separate.
Existing alloy casting additive powder pressing equipment is generally using the forcing press with ejecting mechanism, i.e. compression chamber
Base plate can eject upwards in order to remove pie, but it is compressing after pie there is certain weight, and pie
There is temperature higher in the presence of High Voltage, do not exist gap between pie and base plate, remove pie and be still relatively stranded
It is difficult, it usually needs to carry out being removed again after vibration passage causes a deviation from base plate in pie side, waste time and energy.
The content of the invention
Regarding to the issue above, the utility model provides a kind of alloy casting additive powder pressing equipment, simple structure, behaviour
Facilitate, the self-emptying of pie structural materials body can be realized after the completion of compacting, be particularly well-suited to larger-size alloy
The compacting of founding additive pie structural materials body.
To achieve the above object, this alloy casting additive powder pressing equipment includes support underframe, restocking, automatic feeding
Device, liftout drawing mechanism, hydraulic means and electric control gear, restocking, automatic feeding device and liftout drawing mechanism are arranged at
On support underframe;
Described restocking is provided with the pressure hydraulic cylinder of vertical direction setting, the pressure on pressure hydraulic cylinder extension end
Plate and the compacting tool set head on pressing plate baseplane;
Position inside described support underframe just to compacting tool set head is fixed with and the cooperation of compacting tool set area of bed
Binder chamber, binder chamber is tubular structure connecting up and down, being vertically arranged, and the upper surface in binder chamber is upper flat with support underframe
Face is concordant, and the lower roof plate coordinated with compacting tool set area of bed is provided with binder chamber;
Described automatic feeding device is arranged in the upper plane of support underframe and positioned at pressing plate or the pressure of compacting tool set head
Outside scope processed, including tube for feed and horizontal translocation hydraulic cylinder;Tube for feed is tubular structure connecting up and down, being vertically arranged,
And the internal diameter size of tube for feed is not less than the internal diameter size in binder chamber;The telescopic direction of horizontal translocation hydraulic cylinder is vertical just to binder
The axle center in chamber is set and the piston end of horizontal translocation hydraulic cylinder is connected with the outer wall of tube for feed, the cylinder body of horizontal translocation hydraulic cylinder
It is fixedly mounted on support underframe;
Described liftout drawing mechanism is arranged on the underface in binder chamber, including be vertically arranged vertical jacking hydraulic cylinder,
Upset hydraulic cylinder and discharging supporting plate;The piston end of vertical jacking hydraulic cylinder is hinged company by the baseplane of hinged seat and lower roof plate
Connect, the cylinder body of vertical jacking hydraulic cylinder is fixedly mounted on inside support underframe;Upset hydraulic cylinder is arranged on vertical jacking hydraulic cylinder
Side, the piston end for overturning hydraulic cylinder is articulated and connected by hinged seat with the baseplane of lower roof plate, overturns the cylinder body hinge of hydraulic cylinder
Connect inside support underframe, and overturn the stroke of the stroke more than vertical jacking hydraulic cylinder of hydraulic cylinder;Discharging supporting plate is downward
It is inclined on support underframe, the reverses direction of the upper end correspondence lower roof plate of the supporting plate that discharges is set and upper with support underframe
Plane is connected;
Described hydraulic means includes hydraulic power unit and control valve group, and hydraulic power unit is connected by fluid pressure line with control valve group
Connect, control valve group is respectively by fluid pressure line and pressure hydraulic cylinder, horizontal translocation hydraulic cylinder, vertical jacking hydraulic cylinder, upset liquid
Cylinder pressure is connected;
Described electric control gear includes controller, automatic feeding loop, compacting loop, jacking discharging loop, controller point
Do not electrically connected with the hydraulic power unit and control valve group of hydraulic means.
Used as further improvement of the utility model scheme, described vertical jacking hydraulic cylinder and/or upset hydraulic cylinder sets
More than one piece is set to, vertical jacking hydraulic cylinder and upset hydraulic cylinder are uniformly arranged along the circumferencial direction of lower roof plate.
As the vertical jacking hydraulic cylinder of the utility model and a kind of implementation method of upset hydraulic cylinder, described vertical jacking
Hydraulic cylinder and upset hydraulic cylinder are disposed as two pieces, and the vertical jacking hydraulic cylinder of two pieces is located on the upset axis of lower roof plate, two pieces
Upset hydraulic cylinder is set perpendicular to the upset axis of lower roof plate.
As the vertical jacking hydraulic cylinder of the utility model and the another embodiment of upset hydraulic cylinder, described vertical top
Rise hydraulic cylinder and be set to one, described upset hydraulic cylinder is set to two pieces, and a vertical jacking hydraulic cylinder is near discharging supporting plate
Set, two pieces upset hydraulic cylinder is set away from discharging supporting plate.
Used as further improvement of the utility model scheme, this alloy casting additive powder pressing equipment also includes quota
Automatic feeding device, the blanking port of quota automatic feeding device is located at the surface of tube for feed, quota automatic feeding device and electricity
Control the controller electrical connection of device.
As further improvement of the utility model scheme, branch is provided with below the bottom in described binder chamber, lower roof plate
Fagging, supporting plate is provided with the hole for allowing the piston end of vertical jacking hydraulic cylinder and upset hydraulic cylinder to pass through.
Used as further improvement of the utility model scheme, the lower circumference direction of described charge tube outer surface is provided with
Scraper cleaner or hairbrush.
Compared with prior art, the liftout drawing mechanism of this alloy casting additive powder pressing equipment is due to including vertical
Vertical jacking hydraulic cylinder, upset hydraulic cylinder and the discharging supporting plate for setting, the stroke for overturning hydraulic cylinder are more than vertical jacking hydraulic cylinder
Stroke, discharging supporting plate is downward-sloping to be arranged on support underframe, the reverses direction of the corresponding lower roof plate in the upper end of the supporting plate that discharge sets
Put and be connected with the upper plane of support underframe, therefore jacking hydraulic cylinder and upset hydraulic cylinder can synchronously be stretched vertically after the completion of compacting
The lower roof plate for going out to be loaded with pie structural materials body is ejected to the top in binder chamber, and upset hydraulic cylinder rises simultaneously in ejection process
To the effect of ejection material, it is inclined that the continuation action of upset hydraulic cylinder can overturn lower roof plate, pie structural materials body
Upper corners are compressed the stop of die head and are deflected and edge along upper corners when touching the lower surface of compacting tool set head
The upper plane of lower roof plate slides, and then realizes that the baseplane of pie structural materials body departs from the upper plane of lower roof plate, certainly
Voluntarily slid to discharging supporting plate along the upper plane of lower roof plate under body Action of Gravity Field, skidded off through inclined discharging supporting plate realize certainly again
Dynamic discharging, easy to operate, simple structure is particularly well-suited to the pressure of larger-size alloy casting additive pie structural materials body
System.
Brief description of the drawings
Structural representation when Fig. 1 is the utility model original state;
Fig. 2 is the A direction views of Fig. 1;
Fig. 3 is the A direction views of Fig. 1 when the utility model overturns hydraulic cylinder using a vertical jacking hydraulic cylinder and two pieces;
Structural representation when Fig. 4 is the utility model discharge state.
In figure:1st, support underframe, 11, binder chamber, 12, lower roof plate, 13, supporting plate, 2, restocking, 21, pressure hydraulic cylinder,
22nd, pressing plate, 23, compacting tool set head, 3, automatic feeding device, 31, tube for feed, 32, horizontal translocation hydraulic cylinder, 4, liftout discharging dress
Put, 41, vertical jacking hydraulic cylinder, 42, upset hydraulic cylinder, 43, discharging supporting plate.
Specific embodiment
The utility model is described further below in conjunction with the accompanying drawings.
As shown in Figure 1 to Figure 3, this alloy casting additive powder pressing equipment includes support underframe 1, restocking 2, enters automatically
Material device 3, liftout drawing mechanism 4, hydraulic means and electric control gear, restocking 2, automatic feeding device 3 and liftout drawing mechanism 4 are equal
It is arranged on support underframe 1.
Described restocking 2 be provided with vertical direction setting pressure hydraulic cylinder 21, installed in pressure the telescopic end of hydraulic cylinder 21
On pressing plate 22 and the compacting tool set first 23 on the baseplane of pressing plate 22.
Just first to compacting tool set 23 position is fixed with 23 size first with compacting tool set and matches somebody with somebody inside described support underframe 1
The binder chamber 11 of conjunction, binder chamber 11 is tubular structure connecting up and down, being vertically arranged, and binder chamber 11 upper surface and support
The upper plane of underframe 1 is concordant, is provided with the lower roof plate 12 of 23 dimensional fits first with compacting tool set in binder chamber 11, and lower roof plate 12 can be
Moved up and down in binder chamber 11.
Described automatic feeding device 3 is arranged in the upper plane of support underframe 1 and positioned at pressing plate 22 or compacting tool set head
Outside 23 compacting scope, including tube for feed 31 and horizontal translocation hydraulic cylinder 32;Tube for feed 31 is connected, is vertically arranged up and down
Tubular structure, and tube for feed 31 internal diameter size not less than binder chamber 11 internal diameter size;Horizontal translocation hydraulic cylinder 32 is stretched
The vertical axle center setting and the piston end of horizontal translocation hydraulic cylinder 32 just to binder chamber 11 in contracting direction connects with the outer wall of tube for feed 31
Connect, the cylinder body of horizontal translocation hydraulic cylinder 32 is fixedly mounted on support underframe 1, the flexible of hydraulic cylinder 32 is elapsed by controlled level
Can realize that tube for feed 31 is moved horizontally in the upper plane of support underframe 1.
Described liftout drawing mechanism 4 is arranged on the underface in binder chamber 11, including the vertical jacking hydraulic pressure being vertically arranged
Cylinder 41, upset hydraulic cylinder 42 and discharging supporting plate 43;The piston end of vertical jacking hydraulic cylinder 41 is by hinged seat and lower roof plate 12
Baseplane is articulated and connected, and the cylinder body of vertical jacking hydraulic cylinder 41 is fixedly mounted on inside support underframe 1;Upset hydraulic cylinder 42 is set
In the vertical side of jacking hydraulic cylinder 41, the piston end for overturning hydraulic cylinder 42 is hinged company by the baseplane of hinged seat and lower roof plate 12
Connect, the cylinder body for overturning hydraulic cylinder 42 is hingedly mounted on inside support underframe 1, and the stroke of upset hydraulic cylinder 42 is more than vertical jacking
The stroke of hydraulic cylinder 41, upset hydraulic cylinder 42 can realize the upset of lower roof plate 12 after lower roof plate 12 is pushed out binder chamber 11;
Discharging, supporting plate 43 is downward-sloping to be arranged on support underframe 1, and the reverses direction of the upper end correspondence lower roof plate 12 of the supporting plate 43 that discharges sets
Put and be connected with the upper plane of support underframe 1.
Described hydraulic means includes hydraulic power unit and control valve group, and hydraulic power unit is connected by fluid pressure line with control valve group
Connect, control valve group respectively by fluid pressure line with pressure hydraulic cylinder 21, horizontal translocation hydraulic cylinder 32, vertical jacking hydraulic cylinder 41,
Upset hydraulic cylinder 42 is connected.
Described electric control gear includes controller, automatic feeding loop, compacting loop, jacking discharging loop, controller point
Do not electrically connected with the hydraulic power unit and control valve group of hydraulic means.
This alloy casting additive powder pressing equipment is in original state, as shown in figure 1, pressure hydraulic cylinder 21, level
Passage hydraulic cylinder 32, vertical jacking hydraulic cylinder 41 and upset hydraulic cylinder 42 are in retraction state, i.e. compacting tool set first 23 and are carried
Rise the setting height directly over binder chamber 11, the retraction of lower roof plate 12 and be located at pressure in the interior bottom portion of binder chamber 11, tube for feed 31
Outside the compacting scope of plate 22 or compacting tool set first 23.
Other catalyst such as powdery alloy element and flux are suppressed using this alloy casting additive powder pressing equipment
During mixed material, automatic feeding loop works first, by rear controller in the pulverulent mixture addition tube for feed 31 of nominal-mass
Controlled level passage hydraulic cylinder 32 stretch out, tube for feed 31 be in the upper plane of support underframe 1 direction from level to binder chamber 11
It is mobile, when tube for feed 31 lower surface by binder chamber 11 upper port when pulverulent mixture fall into binder chamber 11, work as Sheng
Controller controlled level elapses the retraction of hydraulic cylinder 32 extremely after barrel 31 moves horizontally the axis setpoint distance for crossing binder chamber 11
Original state makes tube for feed 31 retract to original state to complete automatic feeding;Then loop starts, controller control are suppressed
System pressure hydraulic cylinder 21 extend out to setpoint distance and pressurize, and pressure hydraulic cylinder 21 moves up into binder under driving compacting tool set first 23
Chamber 11 is suppressed pulverulent mixture, and pulverulent mixture is under the positioning restriction effect and compacting tool set first 23 of lower roof plate 12
Closely knit pie structural materials body is squeezed under pressure effect, controller control pressure hydraulic cylinder 21 contracts after pressurize to setting time
Enter to original state make compacting tool set first 23 retract to original state complete material suppress;Then jacking discharging loop starts work
Make, as shown in Fig. 2 controller controls vertical jacking hydraulic cylinder 41 and upset hydraulic cylinder 42 synchronously to stretch out and will be loaded with pie works
Expect top of the lower roof plate 12 of body from the ejection of the inside of binder chamber 11 to binder chamber 11, hydraulic cylinder 42 is overturn during synchronously stretching out
Play a part of to eject material simultaneously, vertical jacking hydraulic cylinder 41 stops stretching out after extending out to extreme position, and overturns hydraulic cylinder
42 continuation are acted, then be loaded with the pin joint of the lower roof plate 12 of pie structural materials body i.e. around it with vertical jacking hydraulic cylinder 41 gradually
Upset is inclined, and hydraulic cylinder is overturn when the upper corners of pie structural materials body touch the lower surface of compacting tool set first 23
42 continue jacking to setpoint distance, and now pie structural materials body is to be compressed the stop of die head 23 and occur along upper corners
Deflect and the upper plane along lower roof plate 12 is translated, and then the baseplane of pie structural materials body is departed from the upper of lower roof plate 12
Plane, voluntarily slid along the upper plane of lower roof plate 12 under self gravitation effect, to discharging supporting plate 43 on, again through inclined discharging
Supporting plate 43 is skidded off, and controller first controls the upset retraction of hydraulic cylinder 42 to the setpoint distance lower roof plate 12 is recovered to horizontality, so
Controller controls vertical jacking hydraulic cylinder 41 again and overturning synchronous retraction to the original state of hydraulic cylinder 42 makes lower roof plate 12 retract afterwards
It is to complete jacking discharging to original state;By that analogy, this alloy casting additive powder pressing equipment can realize continuous compacting
With self-emptying.
In order to realize that lower roof plate 12 more securely carries pressure in pressing process, further change as of the present utility model
Enter scheme, described vertical jacking hydraulic cylinder 41 and/or upset hydraulic cylinder 42 is set to more than one piece, vertical jacking hydraulic cylinder 41 and turn over
Turn hydraulic cylinder 42 to be uniformly arranged along the circumferencial direction of lower roof plate 12.
As the vertical jacking hydraulic cylinder 41 of the utility model and a kind of implementation method of upset hydraulic cylinder 42, as shown in figure 3,
Described vertical jacking hydraulic cylinder 41 and upset hydraulic cylinder 42 is disposed as two pieces, and the vertical jacking hydraulic cylinder 41 of two pieces is located at lower top
On the upset axis of plate 12, two pieces overturns hydraulic cylinder 42 and is set perpendicular to the upset axis of lower roof plate 12;During jacking discharging,
The vertical jacking hydraulic cylinder 41 of two pieces stops stretching out after extending out to extreme position, and controller control two pieces upset hydraulic cylinder 42 is distinguished
Continue expanding-contracting action and realize that lower roof plate 12 overturns.
As the vertical jacking hydraulic cylinder 41 of the utility model and the another embodiment of upset hydraulic cylinder 42, such as Fig. 4 institutes
Show, described vertical jacking hydraulic cylinder 41 is set to one, and described upset hydraulic cylinder 42 is set to two pieces, a vertical jacking
Hydraulic cylinder 41 is set near discharging supporting plate 43, two pieces upset hydraulic cylinder 42 is set away from discharging supporting plate 43;During jacking discharging,
Vertical jacking hydraulic cylinder 41 stops stretching out after extending out to extreme position, and controller control two pieces upset hydraulic cylinder 42 continues synchronization
Stretch out and realize that lower roof plate 12 overturns.
In order to further mitigate the labour intensity of operating personnel, realize automation, further change as of the present utility model
Enter scheme, this alloy casting additive powder pressing equipment also includes quota automatic feeding device, quota automatic feeding device
Blanking port is located at the surface of tube for feed 31, and quota automatic feeding device is electrically connected with the controller of electric control gear;Controller can
Automation is realized to control quota automatic feeding device that auto feed is carried out to tube for feed 31.
In order to lower roof plate 12 more securely carries pressure in being further implemented in pressing process, as it is of the present utility model enter
One step improvement project, the bottom in described binder chamber 11, the lower section of lower roof plate 12 are provided with supporting plate 13, and supporting plate 13 is provided with fair
The hole that the piston end of perhaps vertical jacking hydraulic cylinder 41 and upset hydraulic cylinder 42 passes through;Lower roof plate 12 can in lower limit extreme position
It is fitted in the upper plane of supporting plate 13, and then realization more securely carries pressure in pressing process.
In order to avoid granular material in the moving process of tube for feed 31 from the upper of the baseplane of tube for feed 31 and support underframe 1
Ooze out, in turn result in and measure inaccurate, as further improvement of the utility model scheme, described charge in gap between plane
The lower circumference direction of 31 outer surfaces of cylinder is provided with scraper cleaner or hairbrush, and scraper cleaner or hairbrush can be moved in tube for feed 31
During the granular material that oozes out is cleaned and is made it follow tube for feed 31 to move, when tube for feed 31 move horizontally it is more over-pressed
The granular material cleaned during the axis setpoint distance for expecting chamber 11 can fall directly into binder chamber 11.
The liftout drawing mechanism 4 of this alloy casting additive powder pressing equipment is due to the vertical jacking including being vertically arranged
Hydraulic cylinder 41, upset hydraulic cylinder 42 and discharging supporting plate 43, overturn the row of the stroke more than vertical jacking hydraulic cylinder 41 of hydraulic cylinder 42
Journey, discharging supporting plate 43 is downward-sloping to be arranged on support underframe 1, the reverses direction of the corresponding lower roof plate 12 in the upper end of the supporting plate 43 that discharge
Set and be connected with the upper plane of support underframe 1, therefore jacking hydraulic cylinder 41 and upset hydraulic cylinder 42 can vertically after the completion of compacting
Synchronously stretch out and will be loaded with the lower roof plate 12 of pie structural materials body and eject to the top in binder chamber 11, upset hydraulic cylinder 42 is in ejection
During play a part of to eject material simultaneously, it is inclined that upset hydraulic cylinder 42 continuation action can overturn lower roof plate 12,
The upper corners of pie structural materials body the stop of die head 23 is compressed when touching the lower surface of compacting tool set first 23 and
Deflected along upper corners and the upper plane along lower roof plate 12 slides, and then realize that the baseplane of pie structural materials body takes off
From the upper plane of lower roof plate 12, voluntarily slid along the upper plane of lower roof plate 12 under self gravitation effect, to discharging supporting plate 43,
Skidded off through inclined discharging supporting plate 43 again and realize self-emptying, easy to operate, simple structure is particularly well-suited to larger-size conjunction
The compacting of golden founding additive pie structural materials body.
Claims (7)
1. a kind of alloy casting additive powder pressing equipment, including support underframe (1), restocking (2), automatic feeding device (3),
Liftout drawing mechanism (4), hydraulic means and electric control gear, restocking (2), automatic feeding device (3) and liftout drawing mechanism (4) are
It is arranged on support underframe (1);Restocking (2) be provided with vertical direction setting pressure hydraulic cylinder (21), installed in pressure hydraulic pressure
Pressing plate (22) on cylinder (21) telescopic end and the compacting tool set head (23) on pressing plate (22) baseplane;Support underframe (1)
The internal binder chamber (11) being just fixed with to the position of compacting tool set head (23) with compacting tool set head (23) dimensional fits, binder
Chamber (11) is tubular structure connecting up and down, being vertically arranged, and the upper surface of binder chamber (11) is upper flat with support underframe (1)
Face is concordant, and the lower roof plate (12) with compacting tool set head (23) dimensional fits is provided with binder chamber (11);Characterized in that,
Described automatic feeding device (3) is arranged in the upper plane of support underframe (1) and positioned at pressing plate (22) or compacting tool set
Outside the compacting scope of head (23), including tube for feed (31) and horizontal translocation hydraulic cylinder (32);Tube for feed (31) is to connect up and down
, the tubular structure being vertically arranged, and tube for feed (31) internal diameter size not less than binder chamber (11) internal diameter size;Level is pushed away
The vertical axle center setting and the piston of horizontal translocation hydraulic cylinder (32) just to binder chamber (11) of the telescopic direction of liquid relief cylinder pressure (32)
End is connected with the outer wall of tube for feed (31), and the cylinder body of horizontal translocation hydraulic cylinder (32) is fixedly mounted on support underframe (1);
Described liftout drawing mechanism (4) is arranged on the underface of binder chamber (11), including the vertical jacking hydraulic pressure being vertically arranged
Cylinder (41), upset hydraulic cylinder (42) and discharging supporting plate (43);The piston end of vertical jacking hydraulic cylinder (41) is by hinged seat with
The baseplane of top board (12) is articulated and connected, and the cylinder body of vertical jacking hydraulic cylinder (41) is fixedly mounted on support underframe (1) inside;Turn over
Turn hydraulic cylinder (42) and be arranged on vertical jacking hydraulic cylinder (41) side, the piston end of upset hydraulic cylinder (42) is by hinged seat with
The baseplane of top board (12) is articulated and connected, and the cylinder body of upset hydraulic cylinder (42) is hingedly mounted on support underframe (1) inside, and upset
Stroke of the stroke of hydraulic cylinder (42) more than vertical jacking hydraulic cylinder (41);Discharging supporting plate (43) is downward-sloping to be arranged on support bottom
On frame (1), the reverses direction of upper end correspondence lower roof plate (12) of discharging supporting plate (43) is set and upper flat with support underframe (1)
Face connects;
Described hydraulic means includes hydraulic power unit and control valve group, and hydraulic power unit is connected by fluid pressure line with control valve group,
Control valve group is respectively by fluid pressure line and pressure hydraulic cylinder (21), horizontal translocation hydraulic cylinder (32), vertical jacking hydraulic cylinder
(41), upset hydraulic cylinder (42) connection;
Described electric control gear include controller, automatic feeding loop, compacting loop, jacking discharging loop, controller respectively with
Hydraulic power unit and the control valve group electrical connection of hydraulic means.
2. alloy casting additive powder pressing equipment according to claim 1, it is characterised in that described vertical jacking
Hydraulic cylinder (41) and/or upset hydraulic cylinder (42) are set to more than one piece, vertical jacking hydraulic cylinder (41) and upset hydraulic cylinder (42) edge
The circumferencial direction of lower roof plate (12) is uniformly arranged.
3. alloy casting additive powder pressing equipment according to claim 2, it is characterised in that described vertical jacking
Hydraulic cylinder (41) and upset hydraulic cylinder (42) are disposed as two pieces, and the vertical jacking hydraulic cylinder (41) of two pieces is positioned at lower roof plate (12)
On upset axis, two pieces overturns hydraulic cylinder (42) and is set perpendicular to the upset axis of lower roof plate (12).
4. alloy casting additive powder pressing equipment according to claim 2, it is characterised in that described vertical jacking
Hydraulic cylinder (41) is set to one, and described upset hydraulic cylinder (42) is set to two pieces, and vertical jacking hydraulic cylinder (41) is leaned on
Nearly discharging supporting plate (43) is set, two pieces overturns hydraulic cylinder (42) and set away from discharging supporting plate (43).
5. the alloy casting additive powder pressing equipment according to Claims 1-4 any claim, its feature exists
In this alloy casting additive powder pressing equipment also includes quota automatic feeding device, the blanking of quota automatic feeding device
Mouth is located at the surface of tube for feed (31), and quota automatic feeding device is electrically connected with the controller of electric control gear.
6. the alloy casting additive powder pressing equipment according to Claims 1-4 any claim, its feature exists
Supporting plate (13) is provided with below bottom, lower roof plate (12) in, described binder chamber (11), supporting plate (13) is provided with permission
The hole that the piston end of vertical jacking hydraulic cylinder (41) and upset hydraulic cylinder (42) passes through.
7. the alloy casting additive powder pressing equipment according to Claims 1-4 any claim, its feature exists
In the lower circumference direction of described tube for feed (31) outer surface is provided with scraper cleaner or hairbrush.
Priority Applications (1)
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CN201621315537.8U CN206305451U (en) | 2016-12-02 | 2016-12-02 | Alloy casting additive powder pressing equipment |
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CN201621315537.8U CN206305451U (en) | 2016-12-02 | 2016-12-02 | Alloy casting additive powder pressing equipment |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108787891A (en) * | 2018-07-24 | 2018-11-13 | 成都宏明双新科技股份有限公司 | A kind of safe diel |
CN110394437A (en) * | 2018-04-25 | 2019-11-01 | 河南摩西机械制造有限公司 | A kind of casting iron pan die casting robot |
CN112195352A (en) * | 2020-09-09 | 2021-01-08 | 湖南恒晟环保科技有限公司 | Comprehensive recovery device for bismuth in lead alloy smelting waste slag material |
CN113070430A (en) * | 2021-04-01 | 2021-07-06 | 杭州汽轮铸锻有限公司 | Steel ingot forging and compacting device and using method thereof |
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2016
- 2016-12-02 CN CN201621315537.8U patent/CN206305451U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110394437A (en) * | 2018-04-25 | 2019-11-01 | 河南摩西机械制造有限公司 | A kind of casting iron pan die casting robot |
CN108787891A (en) * | 2018-07-24 | 2018-11-13 | 成都宏明双新科技股份有限公司 | A kind of safe diel |
CN108787891B (en) * | 2018-07-24 | 2023-07-21 | 成都宏明双新科技股份有限公司 | Stamping die that security is high |
CN112195352A (en) * | 2020-09-09 | 2021-01-08 | 湖南恒晟环保科技有限公司 | Comprehensive recovery device for bismuth in lead alloy smelting waste slag material |
CN113070430A (en) * | 2021-04-01 | 2021-07-06 | 杭州汽轮铸锻有限公司 | Steel ingot forging and compacting device and using method thereof |
CN113070430B (en) * | 2021-04-01 | 2022-11-15 | 杭州汽轮铸锻有限公司 | Steel ingot forging and compacting device and using method thereof |
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