CN105174263A - Continuous demolding mechanism and automatic casting molding assembly line comprising same - Google Patents
Continuous demolding mechanism and automatic casting molding assembly line comprising same Download PDFInfo
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- CN105174263A CN105174263A CN201510640577.3A CN201510640577A CN105174263A CN 105174263 A CN105174263 A CN 105174263A CN 201510640577 A CN201510640577 A CN 201510640577A CN 105174263 A CN105174263 A CN 105174263A
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Abstract
The invention provides a continuous demolding mechanism and an automatic casting molding assembly line comprising the same. The continuous demolding mechanism is simple in structure, convenient to operate and capable of improving the working efficiency. The continuous demolding mechanism comprises a rack, a frame, a pair of flask separators and a pair of push rods, wherein the rack comprises a pair of parallel rails and four stand columns perpendicularly arranged at lower parts of the rails, so that the rack sequentially has a working station I, a working station II and a working station III; the frame is horizontally and movably connected between the pair of rails, the flask separators are used for continuous demolding, the pair of flask separators is arranged at the bottom of the frame respectively and arranged in the working stations I and II or the working stations II and III respectively, a bottom plate and a mold are arranged on any one of the pair of the flask separators, and the bottom plates are located below the molds; the pair of push rods is arranged on one side of the working station I and on one side of the working station III respectively. The working efficiency is improved and the labor time and cost are saved.
Description
Technical field
The present invention relates to mould emptier and comprise the automatization casting streamline of mould emptier.
Background technology
When producing silico briquette, in prior art, by offering topotype on ground, then, the liquid object of Tai Baonei is poured into, cools, carrying out fragmentation by artificial iron hammer after cooling or manually carry out fragmentation by putting into crusher after bulk crushing again, there is following defect in it:
1), manually many, add working time and intensity;
2) product specification, after fragmentation differs, and can not meet service requirements;
3), waste greatly, granularity does not reach service requirements;
4), topotype cast time, product produce segregation phenomena, affect quality product.
The application number that the applicant applies in 2015.02.10 is 201510069171.4, and name is called " a kind of automatization casting streamline ", and it exists after production cast, production line is needed to stop, all cooling, the then demoulding one by one, can not non-stop run, add the production time, efficiency is low;
Meanwhile, between mould and base plate, syndeton is complicated, is not easy to realize the follow-up continuous demoulding.
Summary of the invention
The present invention is directed to above problem, provide a kind of structure simple, easy to operate, the continuous mould emptier of increasing work efficiency and the automatization casting streamline comprising continuous mould emptier.
Technical scheme of the present invention is: comprise frame, vehicle frame, a pair flask separator and pair of push rods, and described frame comprises pair of parallel track and vertical four root posts being located at rail inferior portion, makes frame have working position one, working position two and working position three successively;
Described vehicle frame horizontal anomalous movement is connected between pair of tracks, described flask separator is used for the continuous demoulding, a pair flask separator is located at the bottom of described vehicle frame respectively, a pair flask separator is located in working position one, two or in working position two, three respectively, in a pair flask separator, arbitrary flask separator is provided with base plate and mould, and described base plate is positioned at the below of mould;
Pair of push rods is located at the side of working position one and working position three respectively.
Described flask separator comprises rail bracket, pushing plate and a pair swage hook, described rail bracket Vertical movements is connected on described vehicle frame, described pushing plate Vertical movements is connected on described vehicle frame, described pushing plate is positioned at the top of rail bracket, described base plate is located on rail bracket, a pair swage hook to be fixedly located on described vehicle frame and to be positioned at the both sides of described pushing plate, and a pair swage hook is used for supporting mould.
Production line of the present invention comprises transmitting device, cast section and demoulding section,
Described transmitting device comprises chain transport sector and pulsatile delivery mechanism, described chain transport sector and pulsatile delivery mechanism are laid with some mold station are provided with base plate mould for placing bottom, and described base plate has body and is located at the boss of body bottom surface;
Described chain transport sector has entrance end and exit end;
Described cast section is provided with some moulds to be cast by casting mechanism, and described cast section is located at the exit end of described chain transport sector and makes the some moulds poured into a mould in section realize being close to conveying continuously by chain transport sector;
The forward and backward of described cast section is respectively equipped with reserving space one, and the width of described reserving space one is the half of the width of described mould;
Described pulsatile delivery mechanism comprises some pushing mechanisms and some rectilinear orbits,
Some rectilinear orbits are concatenated into some Pai Guai roads in 90 ° successively, and adjacent is be provided with bent angle track, bent angle track described in described pushing mechanism one_to_one corresponding between rectilinear orbit between 90 °, and described pushing mechanism promotes the boss of the base plate of corresponding mould;
Described demoulding section is used for the mould after shaping to carry out the demoulding by continuous mould emptier, the side that described demoulding section is positioned at last row in pulsatile delivery mechanism or be positioned at chain transport sector entrance end before;
Before demoulding section, described in turn the first place of entering a new line on pulsatile delivery mechanism traffic direction and be provided with reserving space two, the width of described reserving space two is the width of described mould,
After demoulding section, described in turn the first corner being parallel to described chain transport sector and be provided with reserving space three, the width of described reserving space three is the width of described mould;
The speed of described pulsatile delivery mechanism is more than the twice of the speed of described chain transport sector or twice.
The quantity of described rectilinear orbit is the multiple of two.
Described casting mechanism comprises rotary table, transition body, casting ladle bracing frame, hydro-cylinder, casting ladle and chute, described watering is packaged on casting ladle bracing frame, described casting ladle bracing frame is connected on described transition body by hydro-cylinder rotary moveable, described transition body is located at the top of rotary table, (described transition body is rotatable on rotary table) described chute is fixedly located on described transition body, the corresponding described chute of cast gate of described casting ladle.
Described mould comprises plate body, and the bottom surface of described plate body is provided with groove, and the bottom surface of described groove is laid with some through holes; The body of described base plate is located in described groove adaptedly.
Described chain transport sector comprises support and drive system, described drive system comprises motor, main drive shaft and driven shaft, described motor is located on described support, described main drive shaft and driven shaft are respectively equipped with pair of parallel sprocket wheel, pair of sprocket on described main drive shaft connects the pair of sprocket on driven shaft respectively by pair of parallel sprocket wheel, make described motor drive driven shaft by main drive shaft;
Described chain is laid with some paired pushing blocks for placing base plate boss.
Described bent angle track comprises dull and stereotyped and some balls, and described flat board is provided with some grooves, and described ball is located in described groove; The two ends, right angle of described flat board are respectively equipped with the perforation of passing for base plate boss.
Described rectilinear orbit comprises rail bracket and some paired running rollers, and described paired running roller is located on described rail bracket by shaft coupling, and the outside of described paired running roller is provided with wheel rim, and described base plate is located between a pair wheel rim.
Described pushing mechanism is hydro-cylinder or cylinder; Also comprise and somely connect draw box mechanism, describedly connect the side that draw box mechanism is located at described bent angle track, the described draw box mechanism that connects comprises frame, guide holder, hydro-cylinder and some guide deflection sheaves, described guide holder is connected in described frame by hydro-cylinder horizontal anomalous movement, and some guide deflection sheaves are movably connected on described guide holder.
Continuous mould emptier in the present invention, by arranging three stations, vehicle frame is installed the flask separator of two cover same structures, in a pair flask separator, arbitrary flask separator is provided with base plate for subsequent use, to be replaced and mould, make when pulsing time-out, flask separator to be replaced moves in production line, by needing the mould of the demoulding to move to outside production line, realizes stripping action; Vehicle frame moves left and right, and makes a pair flask separator when pulsing time-out, can carry out alternately stripping action successively by continuous print, thus realize continuous movement at working position one and working position three.
The production line comprising continuous mould emptier in the present invention comprises transmitting device, cast section and demoulding section; transmitting device comprises chain transport sector and pulsatile delivery mechanism; cast section is located at the exit end of chain transport sector; tight arrangement and continus convergence mould; pulsatile delivery mechanism realizes pulsation conveying (one by one continus convergence); and asynchronous promotion (i.e. pushing mechanism action), realize the continus convergence of mould.In work, first by the cast of casting mechanism fixed point, transmitting device transmission action; pour the solution in casting ladle into mould on some mold station successively, then, in course of conveying; realization is solidified; until mould emptier carries out stripping action continuously, stop without the need to production line, then the demoulding one by one; realize continuous seepage (cast, the demoulding synchronous); automated operation, improves working efficiency, saves the time.Mould can be processed into different specifications at work, and strong adaptability meets service requirements.
Invention increases working efficiency, save working time and cost.
Accompanying drawing explanation
Fig. 1 is the structural representation of continuous mould emptier in the present invention,
Fig. 2 is the vertical view of Fig. 1,
Fig. 3 is the left view of Fig. 1,
Fig. 4 is the structural representation of production line in the present invention,
Fig. 5 is the structural representation of casting mechanism in the present invention,
Fig. 6 is the left view of Fig. 5,
Fig. 7 is the perspective view of Fig. 5,
Fig. 8 is the structural representation of chain transport sector in the present invention,
Fig. 9 is the vertical view of Fig. 8,
Figure 10 is the left view of Fig. 8,
Figure 11 is the syndeton schematic diagram of mould and base plate in the present invention,
Figure 12 is the structural representation of bent angle track in the present invention,
Figure 13 is the structural representation connecing draw box mechanism in the present invention,
Figure 14 is the vertical view of Figure 13,
Figure 15 is the left view of Figure 13,
Figure 16 is the process chart of embodiment one in the present invention,
Figure 17 is the process chart of embodiment two in the present invention,
Figure 18 is process chart one of the present invention,
Figure 19 is process chart two of the present invention,
Figure 20 is process chart three of the present invention;
In figure, 1 is cast section, and 2 is demoulding sections, and 3 is mold station, 4 is moulds, and 5 is reserving spaces one, and 6 is entrance ends, 7 is exit end, and 8 is pushing mechanisms, and 81 is pushing mechanisms one, 82 is pushing mechanisms two, and 9 is rectilinear orbits, and 10 is bent angle tracks, 11 is base plates, and 111 is bodies, and 112 is boss, 12 is reserving spaces two, and 13 is reserving spaces three
14 is casting mechanisms, and 141 is rotary tables, and 142 is transition bodies, and 143 is casting ladle bracing frames, and 144 is hydro-cylinders one, and 145 is casting ladles, and 146 is chutes;
15 is continuous mould emptiers, and 151 is frames one, and 1511 is tracks, 1512 is columns, and 152 is vehicle frames, and 153 is flask separators, 1531 is rail brackets, and 1532 is pushing plate, and 1533 is swage hooks, 154 is push rods, 155 is stations one, and 156 is stations two, and 157 is stations three, 158 is motors one, and 159 is hydro-cylinders two;
16 is chain transport sectors, and 161 is supports, and 162 is motors two, and 163 is main drive shafts, and 164 is driven shafts, and 165 is sprocket wheels, and 166 is chains, and 167 is pushing blocks;
17 is moulds, and 171 is plate bodys, and 172 is grooves, and 173 is through holes, and 18 is running rollers, and 19 is wheel rims, and 20 is dull and stereotyped, and 21 is balls, and 22 is perforation,
23 is connect draw box mechanism, and 231 is frames two, and 232 is guide holders, and 233 is hydro-cylinders three, and 234 is guide deflection sheaves, and 24 is rail brackets.
Embodiment
The present invention is as shown in Fig. 1-2 0, comprise frame (i.e. frame 1), vehicle frame 152, a pair flask separator 153 and pair of push rods 154, described frame 151 comprises pair of parallel track 1511 and vertical four root posts 1512 being located at rail inferior portion, makes frame have working position 1, working position 2 156 and working position 3 157 successively;
Described vehicle frame 152 horizontal anomalous movement is connected between pair of tracks 1511, described flask separator 153 is for the continuous demoulding, a pair flask separator 153 is located at the bottom of described vehicle frame 152 respectively, a pair flask separator 153 is located in working position one, two or in working position two, three respectively, in a pair flask separator arbitrary flask separator be provided with base plate 11 and mould 17(namely do for subsequent use, be convenient to the empty mould replaced), described base plate is positioned at the below of mould;
Pair of push rods 154 is located at the side of working position 1 and working position 3 157 respectively.
The present invention, in the demoulding, arranges three stations, vehicle frame is installed the flask separator that two nested structures are identical, respective independent drive, and frame realizes the function of left and right switching perpendicular to production line traffic direction;
When production line of pulsing suspends, the empty mould (i.e. base plate and mould) of side station is moved in production line, simultaneously by the mold movement after shaping to outside production line, die sinking is carried out to it, by push rod, product is pushed open;
When production line of pulsing suspends again, by the bottom after die sinking before and mold movement in production line, the mold movement after shaping is carried out die sinking to side station before simultaneously, then by push rod by product push rod, operate and so forth, realize the continuous demoulding.
Described flask separator comprises rail bracket 1531, pushing plate 1532 and a pair swage hook 1533, described rail bracket 1531 Vertical movements is connected on described vehicle frame 152, described pushing plate 1532 Vertical movements is connected on described vehicle frame 152, and (pushing plate is provided with the through hole of the corresponding mould of some thimbles, carry out pusher), described pushing plate 1532 is positioned at the top of rail bracket, described base plate 11 is located on rail bracket 1531, a pair swage hook 1533 to be fixedly located on described vehicle frame and to be positioned at the both sides of described pushing plate, and a pair swage hook is used for supporting mould.
Its specific works is: vehicle frame moves and realized by servomotor (i.e. motor 1) driving gear tooth bar, and frame is provided with road wheel, and described vehicle frame is actively installed on track by road wheel;
When die sinking, rail bracket moves down under the effect of hydro-cylinder, drives base plate; Because a pair swage hook is used for supporting mould, mould keeps static, and then, pushing plate moves down under the effect of hydro-cylinder (i.e. hydro-cylinder 2 159), and for mold returning, finally, push rod is by the material release on base plate.
Production line in the present invention comprises transmitting device, cast section 1 and demoulding section 2,
Described transmitting device comprises chain transport sector 16 and pulsatile delivery mechanism, described chain transport sector 16 and pulsatile delivery mechanism are laid with some mold station 3 are provided with base plate mould for placing bottom, and described base plate 11 has body 111 and is located at the boss 112 of body bottom surface;
Described chain transport sector 16 has entrance end 6 and exit end 7;
Described cast section 1 is provided with some moulds to be cast by casting mechanism, and described cast section is located at the exit end 7 of described chain transport sector and makes the some moulds poured into a mould in section realize being close to conveying continuously by chain transport sector 16;
The forward and backward of described cast section 1 is respectively equipped with reserving space 1, and the width of described reserving space 1 is the half of the width of described mould 17;
Described pulsatile delivery mechanism comprises some pushing mechanisms 8 and some rectilinear orbits 9,
Some rectilinear orbits 9 are concatenated into some Pai Guai roads in 90 ° successively, adjacent is be provided with bent angle track 10 between rectilinear orbit between 90 °, bent angle track 10 described in described pushing mechanism 8 one_to_one corresponding, described pushing mechanism 8 promotes the boss 112 of the base plate of corresponding mould;
Described demoulding section 2 is used for the mould after shaping to carry out the demoulding by continuous mould emptier, the side that described demoulding section is positioned at last row in pulsatile delivery mechanism or be positioned at chain transport sector entrance end before;
Before demoulding section, described in turn the first place of entering a new line on pulsatile delivery mechanism traffic direction and be provided with reserving space 2 12, the width of described reserving space two is the width of described mould,
After demoulding section, described in turn the first corner being parallel to described chain transport sector and be provided with reserving space 3 13, the width of described reserving space three is the width of described mould;
The speed of described pulsatile delivery mechanism is more than the twice of the speed of described chain transport sector or twice; Wherein, some pushing mechanisms at work, are divided into two groups (odd number one group, even numbers one group), realize spaced stretching, contracting action.
Chain transport sector at work, solid line transmits continuously, pulsatile delivery mechanism at work, realizes pulsatile delivery (namely mould moves one by one), owing to reserving mold half station at the exit end of cast section, turn and a mold station is set, be in operation, by different speed control, thus make the mold movement mold half station at chain transport sector exit end, mould in pulsatile delivery mechanism can move a mold station, and then mould is transmitted continuously reliably.
As shown in figs. 16-17, the quantity of described rectilinear orbit 9 is the multiple of two; As in rectangular layout in two row, four lines, six row etc., arranged according to converted products output demand; When rectilinear orbit number change, reserving space one retains, and reserving space two, three needs to adjust change accordingly, and meanwhile, the number needs of pushing mechanism will adjust change accordingly.
As illustrated in figs. 5-7, described casting mechanism 14 comprises rotary table 141, transition body 142, casting ladle bracing frame 143, hydro-cylinder (i.e. hydro-cylinder 1), casting ladle 145 and chute 146, described casting ladle 145 is located on casting ladle bracing frame 143, described casting ladle bracing frame 143 is connected on described transition body 142 by hydro-cylinder rotary moveable, described transition body 142 is located at the top of rotary table, described chute is fixedly located on described transition body, the corresponding described chute of cast gate of described casting ladle.In work, transition body is rotatable on rotary table, is convenient to adjustment position and adapts to processing request, meanwhile, and easy cleaning casting ladle.
Described mould 17 comprises plate body 171, and the bottom surface of described plate body 171 is provided with groove 172, and the bottom surface of described groove is laid with some through holes 173; The body of described base plate is located in described groove adaptedly; Make base plate reliably be embedded in the groove of plate body, both connect reliably; Meanwhile, adapt to the follow-up demoulding, be convenient to both and be separated.
As seen in figs. 8-10, described chain transport sector 16 comprises support 161 and drive system, described drive system comprises motor (i.e. motor 2 162), main drive shaft 163 and driven shaft 164, described motor is located on described support 161, described main drive shaft and driven shaft are respectively equipped with pair of parallel sprocket wheel 165, pair of sprocket on described main drive shaft connects the pair of sprocket on driven shaft respectively by pair of parallel sprocket wheel 166, make described motor drive driven shaft by main drive shaft;
Described chain is laid with some paired pushing blocks 167 for placing base plate boss.
Chain transport sector at work, by arranging pair of parallel chain, chain being arranged to right pushing block and being convenient to place the boss of base plate, makes base plate and the mould be arranged on base plate can reliably transmit.
As shown in figure 12, described bent angle track 10 comprises dull and stereotyped 20 and some balls 21, and described dull and stereotyped 20 are provided with some grooves, and described ball 21 is located in described groove; The two ends, right angle of described dull and stereotyped 20 are respectively equipped with the perforation 22 of passing for base plate boss.
In mould runs in the horizontal direction, there are 90 ° of turning operation problems, therefore, turn to track place to avoid using running roller at 90 °, adopt ball to replace action; Base plate is provided with boss simultaneously, and arrange perforation, being convenient to base plate can pass through smoothly.
Described rectilinear orbit 9 comprises rail bracket 24 and some paired running rollers 18, and described paired running roller 18 is located on described rail bracket 24 by shaft coupling, and the outside of described paired running roller is provided with wheel rim 19, and described base plate 11 is located between a pair wheel rim.
Rectilinear orbit is fixedly installed some running rollers, base plate is rolled by pushing mechanism on running roller, convenient transmission; The height of running roller is consistent with the height of ball, is convenient to the guiding of rectilinear orbit and bent angle track, improves transmission reliability.
Described pushing mechanism 8 is hydro-cylinder or cylinder, is convenient to select according to need of work; Also comprise and somely connect draw box mechanism 23, describedly connect the side that draw box mechanism is located at described bent angle track, the described draw box mechanism that connects comprises frame (i.e. frame 2 231), guide holder 232, hydro-cylinder (i.e. hydro-cylinder 3 233) and some guide deflection sheaves 234, described guide holder 232 is connected in described frame by hydro-cylinder horizontal anomalous movement, and some guide deflection sheaves 234 are movably connected on described guide holder; Setting connects draw box mechanism, plays position-limiting action on the one hand, avoids mould to plunge off the tracks; On the other hand, some guide deflection sheaves play the line feed guide effect to mould.
As depicted in figures 18-20, working process of the present invention is: mould realizes segment transmissions on transmitting device, by chain transport sector and the action simultaneously of pulsatile delivery mechanism, meanwhile, asynchronous behavior shows as: pushing mechanism 1 works formerly, after pushing mechanism 2 82 is operated in, realize asynchronously pushing action, avoid interfering, realize the continuous transmission of mould, in Figure 11-13, the direction of arrow represents pushing direction.
Claims (10)
1. a continuous mould emptier, it is characterized in that, comprise frame, vehicle frame, a pair flask separator and pair of push rods, described frame comprises pair of parallel track and vertical four root posts being located at rail inferior portion, makes frame have working position one, working position two and working position three successively;
Described vehicle frame horizontal anomalous movement is connected between pair of tracks, described flask separator is used for the continuous demoulding, a pair flask separator is located at the bottom of described vehicle frame respectively, a pair flask separator is located in working position one, two or in working position two, three respectively, in a pair flask separator, arbitrary flask separator is provided with base plate and mould, and described base plate is positioned at the below of mould;
Pair of push rods is located at the side of working position one and working position three respectively.
2. the continuous mould emptier of one according to claim 1; it is characterized in that; described flask separator comprises rail bracket, pushing plate and a pair swage hook; described rail bracket Vertical movements is connected on described vehicle frame; described pushing plate Vertical movements is connected on described vehicle frame, and described pushing plate is positioned at the top of rail bracket, and described base plate is located on rail bracket; a pair swage hook to be fixedly located on described vehicle frame and to be positioned at the both sides of described pushing plate, and a pair swage hook is used for supporting mould.
3. comprise an automatization casting streamline for continuous mould emptier according to claim 1, it is characterized in that, comprise transmitting device, cast section and demoulding section,
Described transmitting device comprises chain transport sector and pulsatile delivery mechanism, described chain transport sector and pulsatile delivery mechanism are laid with some mold station are provided with base plate mould for placing bottom, and described base plate has body and is located at the boss of body bottom surface;
Described chain transport sector has entrance end and exit end;
Described cast section is provided with some moulds to be cast by casting mechanism, and described cast section is located at the exit end of described chain transport sector and makes the some moulds poured into a mould in section realize being close to conveying continuously by chain transport sector;
The forward and backward of described cast section is respectively equipped with reserving space one, and the width of described reserving space one is the half of the width of described mould;
Described pulsatile delivery mechanism comprises some pushing mechanisms and some rectilinear orbits,
Some rectilinear orbits are concatenated into some Pai Guai roads in 90 ° successively, and adjacent is be provided with bent angle track, bent angle track described in described pushing mechanism one_to_one corresponding between rectilinear orbit between 90 °, and described pushing mechanism promotes the boss of the base plate of corresponding mould;
Described demoulding section is used for the mould after shaping to carry out the demoulding by continuous mould emptier, the side that described demoulding section is positioned at last row in pulsatile delivery mechanism or be positioned at chain transport sector entrance end before;
Before demoulding section, described in turn the first place of entering a new line on pulsatile delivery mechanism traffic direction and be provided with reserving space two, the width of described reserving space two is the width of described mould,
After demoulding section, described in turn the first corner being parallel to described chain transport sector and be provided with reserving space three, the width of described reserving space three is the width of described mould;
The speed of described pulsatile delivery mechanism is more than the twice of the speed of described chain transport sector or twice.
4. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3, it is characterized in that, the quantity of described rectilinear orbit is the multiple of two.
5. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3; it is characterized in that; described casting mechanism comprises rotary table, transition body, casting ladle bracing frame, hydro-cylinder, casting ladle and chute; described watering is packaged on casting ladle bracing frame; described casting ladle bracing frame is connected on described transition body by hydro-cylinder rotary moveable; described transition body is located at the top of rotary table; described chute is fixedly located on described transition body, the corresponding described chute of cast gate of described casting ladle.
6. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3, it is characterized in that, described mould comprises plate body, and the bottom surface of described plate body is provided with groove, and the bottom surface of described groove is laid with some through holes; The body of described base plate is located in described groove adaptedly.
7. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3, it is characterized in that, described chain transport sector comprises support and drive system, described drive system comprises motor, main drive shaft and driven shaft, described motor is located on described support, described main drive shaft and driven shaft are respectively equipped with pair of parallel sprocket wheel, pair of sprocket on described main drive shaft connects the pair of sprocket on driven shaft respectively by pair of parallel sprocket wheel, make described motor drive driven shaft by main drive shaft;
Described chain is laid with some paired pushing blocks for placing base plate boss.
8. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3, is characterized in that, described bent angle track comprises dull and stereotyped and some balls, and described flat board is provided with some grooves, and described ball is located in described groove; The two ends, right angle of described flat board are respectively equipped with the perforation of passing for base plate boss.
9. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3; it is characterized in that; described rectilinear orbit comprises rail bracket and some paired running rollers; described paired running roller is located on described rail bracket by shaft coupling; the outside of described paired running roller is provided with wheel rim, and described base plate is located between a pair wheel rim.
10. a kind of automatization casting streamline comprising continuous mould emptier according to claim 3, it is characterized in that, described pushing mechanism is hydro-cylinder or cylinder; Also comprise and somely connect draw box mechanism, describedly connect the side that draw box mechanism is located at described bent angle track, the described draw box mechanism that connects comprises frame, guide holder, hydro-cylinder and some guide deflection sheaves, described guide holder is connected in described frame by hydro-cylinder horizontal anomalous movement, and some guide deflection sheaves are movably connected on described guide holder.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201510640577.3A CN105174263B (en) | 2015-09-30 | 2015-09-30 | Continuous demolding mechanism and automatic casting molding assembly line comprising same |
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| CN201510640577.3A CN105174263B (en) | 2015-09-30 | 2015-09-30 | Continuous demolding mechanism and automatic casting molding assembly line comprising same |
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| CN105174263A true CN105174263A (en) | 2015-12-23 |
| CN105174263B CN105174263B (en) | 2017-03-22 |
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| CN106424334A (en) * | 2016-07-26 | 2017-02-22 | 滁州达世汽车配件有限公司 | Guide device of vehicle progressive mold |
| CN110626118A (en) * | 2019-09-02 | 2019-12-31 | 马鞍山市天钧机械制造有限公司 | Shear-compression composite elastic wheel for low-floor tramcar |
| CN110626118B (en) * | 2019-09-02 | 2021-03-30 | 马鞍山市天钧机械制造有限公司 | Shear-compression composite elastic wheel for low-floor tramcar |
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| CN105174263B (en) | 2017-03-22 |
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Effective date of registration: 20200924 Address after: 225000 South Building of Yangzhou Zhigu R & D center, No. 186, Yangzi River middle road, Yangzhou Economic and Technological Development Zone, Jiangsu Province Patentee after: Jiangsu Qixin Machinery Manufacturing Co., Ltd Address before: 225000 No. 133 Dongguan Street, Guangling District, Jiangsu, Yangzhou Patentee before: Zhu Xinqi |
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