CN106272884A - The vacuum shaping equipment of the Ceramic Balls of a kind of built-in metal skeleton and method - Google Patents

Abstract

A kind of vacuum shaping equipment of the Ceramic Balls of built-in metal skeleton, including stepping conveying belt and by its transmission, use NULL to make, surface configuration has the lower semisphere mould of ball mould sealing ring, lower semisphere mould in transmitting procedure at least through four stations；Wherein station one conveying；Station two places metallic framework；It is the molding press being provided with magnechuck on the piston rod with sealing ring, shell that station three is provided with lower end, uses electromagnetism to connect and is connected with episphere mould, be provided with press-powder hole and the vacuum drawn hole of band hydrophobic, air-permeability defecator in episphere mould below molding press；Station four is provided above transfer device.The invention also discloses a kind of vacuum blank-making method using this vacuum shaping equipment, the operation such as including first watering powder, skeleton dropping place, spheroid pressing full circle, ball base transfer.The present invention makes the Ceramic Balls of built-in metal skeleton can carry out the automatic base of industrialization.

Description

The vacuum shaping equipment of the Ceramic Balls of a kind of built-in metal skeleton and method

Technical field

The present invention relates to cement manufacture field, particularly relate to the vacuum blank-making method of the Ceramic Balls of a kind of built-in metal skeleton And equipment.

Background technology

Cement ball mill have to material strong adaptability, can produce continuously, broken than big, be prone to the thin of speed governing ground prod The features such as degree.The operation principle of conventional cement ball mill is that material is entered through pan feeding quill shaft spiral equably by feed arrangement Entering in grinding machine storehouse, have ladder lining board or corrugated liner, the steel ball of built-in different size or Ceramic Balls in this storehouse, barrel body rotation produces Centrifugal force falls after taking steel ball or Ceramic Balls to certain altitude, and material is produced bang and abrasive action.Cement ball mill is made pottery Porcelain ball is the conventional grinding material medium of cement ball-milling machine equipment, by touching between cement ball mill Ceramic Balls, material, liner plate Hit friction and produce ablation, thus the particle diameter of material is reduced further.Therefore, Ceramic Balls hardness in use and wear-resisting Property be impact one of principal element of grinding shaping effect, simultaneously as ceaselessly clashed into for a long time, mill ball is resisted Impact property has high requirement.

In prior art, cement ball mill Ceramic Balls has had more employing, great majority to use traditional Al2O3- CaO-MgO-SiO2 quaternary system, also has a small amount of inventor to improve on its formula, to reach special effect.Such as this A person of good sense has applied for the many parts of Ceramic Balls using new formulation before this, has high rigidity, high temperature resistant, high life, easy-formation, toughness Well, the effect of the cement high purity produced.

But, in the research of long-term cement ball mill Ceramic Balls, the inventors discovered that, startup, jerk, throwing pendant etc. Impact cause broken be one of Ceramic Balls modal damage mode, this greatly govern cement ball-milling industry send out Exhibition.

Utilize the intensity height of the refractory metals such as pure titanium, alpha titanium alloy, alpha+beta titanium alloys, high temperature alloy, corrosion resistance good, heat-resisting Property advantages of higher, the method using implanted metal skeleton, the globality that can make Ceramic Balls is more preferable, and can when being impacted Impulsive force is shared by skeleton, the most broken.

It is implanted into metallic framework in Ceramic Balls and belongs to blank field before this, there is no and see that any research is seen in paper or special Profit, its vacuum shaping equipment and method are all the more so.

Summary of the invention

For drawbacks described above present in prior art, it is desirable to provide a kind of Ceramic Balls making built-in metal skeleton Vacuum shaping equipment and the method for the automatic base of industrialization can be carried out.

To achieve these goals, the present invention is by the following technical solutions: the Ceramic Balls of a kind of built-in metal skeleton true Empty shaping equipment, including stepping conveying belt and by its transmission, use NULL making, that upper surface is provided with ball mould is close The lower semisphere mould of seal, lower semisphere mould in transmitting procedure at least through four stations；Wherein station one is provided above conveying Pipe；Station two is provided above placing the device of metallic framework；Station three is provided above in inner chamber being placed with powder lot in bags Episphere mould, this episphere mould is provided above the molding press using electromagnetism to connect by magnechuck therewith, molding press lower end It is provided with that scalable and episphere mould upper entrance mates, position, termination is provided with the piston rod of piston rod packing circle, pressing mold It is provided with magnechuck on machine shell, is provided with and episphere mould cavity in the bottom of the upper entrance of described episphere mould Press-powder hole, the another side in the press-powder hole site of episphere die cavity is provided with and is connected with vacuum pump, near the going out of episphere die cavity Mouth is provided with the vacuum drawn hole of hydrophobic, air-permeability defecator；Station four is provided above transfer device.

The vacuum shaping equipment of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: molding press is built-in with rotary system, liter Fall system.

The vacuum shaping equipment of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: stepping conveying belt uses ellipse Track.

The vacuum shaping equipment of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: be provided with on stepping conveying belt with The positioning pit of same shape bottom lower semisphere mould.

The vacuum shaping equipment of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: arrange on conveying stepping conveying belt Positioning pit and lower semisphere mould bottom all use pentagon, square or triangle.

The vacuum shaping equipment of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: transfer device is negative-pressure adsorption-type.

The vacuum blank-making method of the Ceramic Balls of above-mentioned built-in metal skeleton, comprises the following steps:

1) first watering powder: lower semisphere mould is transported to station one by stepping conveying belt, passes through conveying by the powder of ceramic prilling Pipe is poured into lower semisphere mould, and the moisture control of powder is below 0.5%；

2) skeleton dropping place: lower semisphere mould is transported to station two, then by placing the device of metallic framework by integral die-cast one-tenth The centre of surface position of the powder that the dendroid of type or the metallic framework of herring-bone form are placed in lower semisphere mould；

3) spheroid pressing full circle: lower semisphere mould is transported to station three；Powder lot in bags is put into the upper entrance of episphere mould, so The piston rod of rear molding press bottom stretches into upper entrance, opens the power supply of magnechuck, and molding press and episphere mould pass through electromagnetism Connect fixing；Molding press drives episphere mould descending subsequently, contacts to episphere mould with lower semisphere mould, closes the electricity of magnechuck Source, now ball mould sealing ring makes outside air can not enter ball die cavity by the gap between episphere mould and lower semisphere mould；Open Open vacuum pump, start evacuation by vacuum drawn hole；The piston rod of molding press is descending, is acted on by ball mould sealing ring, air Ball die cavity can not be entered by the upper entrance of episphere mould；The sack of powder lot in bags is crushed by the piston rod of molding press, in it Powder lot in bags got into episphere die cavity by press-powder hole;Molding press continues traveling downwardly, powder lot in bags and metallic framework, powder It is squeezed into one, forms complete Ceramic Balls base；Being again turned on the power supply of magnechuck, molding press drives the rotation of episphere die cavity Turning, be rotated into walking to few 3 circles, the unnecessary blank on Ceramic Balls base surface is machined away by episphere die cavity；Molding press is mentioned subsequently, band Dynamic episphere mould leaves Ceramic Balls base.

4) ball base transfer: lower semisphere mould is transported to station four, is shifted Ceramic Balls base by transfer device.

The vacuum blank-making method of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: the powder filled at station one is pottery The 48-52% of the total consumption of porcelain ball.

The vacuum blank-making method of the Ceramic Balls of above-mentioned built-in metal skeleton, wherein: the capacity of the powder lot in bags of station three Should be the volume in press-powder hole and the total consumption of Ceramic Balls 55-58%'s and.

The present invention is without prior art.The vacuum shaping equipment of the Ceramic Balls of the built-in metal skeleton of the present invention, uses ellipse The stepping conveying belt of shape track, point multistation, multiple operation can be carried out simultaneously；The molding press of electromagnetism connection and episphere mould, Can easily realize integrally lifting, can individually stretch pressing mold by molding press, also can realize rotating integrally and make Ceramic Balls base full circle, and equipment Simply, it is difficult to break down；Lower semisphere mould uses NULL to make, and can make will not be by lower half in magnechuck opening process Ball mould picks up.Piston rod packing circle, the addition of ball mould sealing ring, can make ball die cavity enter without outside air, and arrange vacuum Extraction aperture, hydrophobic, air-permeability defecator are to make that ball mould chamber air is drawn out of and moisture and powder can not be extracted out, to manufacture Vacuum environment.

Meanwhile, the vacuum blank-making method of the Ceramic Balls of the built-in metal skeleton in the present invention, due to have employed first watering powder, The operations such as skeleton dropping place, spheroid pressing full circle, ball base transfer, ball base pressing is because raw material is more than demand, and compacting process is in vacuum Carrying out under environment, compactness is high；Simultaneously as hydrophobic, air-permeability defecator is arranged on episphere mould away from another of press-powder hole Limit, it is simple to powder is transferred fully, fills up rapidly whole ball die cavity；Use rotary cutting full circle, it is not necessary to increase extras, letter Single quick;Procedure is numerous and diverse is extremely letter, makes whole base process succinctly orderly, can realize industrialization and automatically produce.

Accompanying drawing explanation

Fig. 1 is the base schematic flow sheet of the present invention；

Fig. 2 is the structural representation of the episphere mould of the present invention；

Fig. 3 is the structural representation of the molding press of the present invention；

Fig. 4 is the schematic diagram of the stepping conveying belt of the present invention.

In figure: lower semisphere mould 1, powder 2, conveying pipeline 3, metallic framework 4, episphere mould 5, powder lot in bags 6, molding press 7, electricity Magnetic-disc 8, piston rod packing circle 9, ball mould sealing ring 10, transfer device 11, Ceramic Balls base 12, stepping conveying belt 13.Wherein Episphere mould 5 contains: upper entrance 51, press-powder hole 52, episphere die cavity 53, vacuum drawn hole 54, hydrophobic, air-permeability defecator 55。

Detailed description of the invention

As shown in Figure 1,2,3, 4, the vacuum shaping equipment of the Ceramic Balls of a kind of built-in metal skeleton of the present invention, including edge Stepping conveying belt 13 that elliptical orbit advances and by its transmission, use 0Cr16Ni14 rustless steel etc. such as to commonly use every magnetic material Material makes, is provided with at upper surface the lower semisphere mould 1 of ball mould sealing ring 10, stepping conveying belt 13 is provided with and lower semisphere mould The positioning pit of same shape bottom 1, positioning pit uses non-orbiting profiled shape such as pentagon, square, triangle etc., permissible Avoid lower semisphere mould 1 to slide on stepping conveying belt 13, rotate, dislocation etc..Lower semisphere mould 1 in transmitting procedure at least through Four stations；Wherein station one is provided above conveying pipeline 3, and station two is provided above placing the device of metallic framework 4, station Three are provided above in inner chamber being placed with the episphere mould 5 of powder lot in bags 6, and this episphere mould is provided above passing through therewith electromagnetism Sucker 8 uses the molding press 7 that electromagnetism connects, molding press 7 lower end to be provided with the scalable and upper entrance 51 of episphere mould 5 Join, position, termination is provided with the piston rod of piston rod packing circle 9, and molding press 7 shell is provided with magnechuck 8, on described The bottom of the upper entrance 51 of hemisphere mould 5 is provided with the press-powder hole 52 communicated with episphere die cavity 53, at episphere die cavity 53 The another side of position, press-powder hole 52 be provided be connected with vacuum pump (not shown), near episphere die cavity 53 outlet arrange There is the vacuum drawn hole 54 of hydrophobic, air-permeability defecator 55；Station four is provided above transfer device 11.

Molding press 7 is built-in with rotary system, jacking system, and this molding press is having matured product on the market, repeats no more. Magnechuck 8 fixed thereon, is also commercially available matured product, is widely used at aspect tools such as Electromagnetic slings for lifting loads, and its principle is no longer Repeat.

As it is shown in figure 1, the vacuum blank-making method of the Ceramic Balls of a kind of built-in metal skeleton of the present invention, including following step Rapid:

1) first watering powder: lower semisphere mould 1 is transported to station one by stepping conveying belt 13, passes through the powder 2 of ceramic prilling Conveying pipeline 3 is poured into lower semisphere mould 1, and the moisture control of powder 2 is below 0.5%, and groundwater increment controls as the total consumption of Ceramic Balls 48-52%；

2) skeleton dropping place: lower semisphere mould 1 is transported to station two, then by placing the device of metallic framework 4 by integral die-cast The centre of surface position of the powder 2 that the dendroid of molding or the metallic framework 4 of herring-bone form are placed in lower semisphere mould 1；

3) spheroid pressing full circle: lower semisphere mould 1 is transported to station three；The capacity of powder lot in bags 6 should be the volume in press-powder hole 52 Consumption total with Ceramic Balls 55-58%'s and, powder lot in bags 6 is put into the upper entrance 51 of episphere mould 5, then molding press 7 times The piston rod in portion stretches into upper entrance 51, opens the power supply of magnechuck 8, and molding press 7 is connected solid with episphere mould 5 by electromagnetism Fixed；Molding press 7 drives episphere mould 5 descending subsequently, contacts to episphere mould 5 with lower semisphere mould 1, closes the electricity of magnechuck 8 Source, now ball mould sealing ring 10 makes outside air can not enter ball mould by the gap between episphere mould 5 and lower semisphere mould 1 Chamber；Open vacuum pump, start evacuation by vacuum drawn hole 54；The piston rod of molding press 7 is descending, by ball mould sealing ring 10 Effect, air can not enter ball die cavity by the upper entrance 51 of episphere mould 5；The piston rod of molding press 7 is by powder lot in bags 6 Sack crushes, and its interior powder lot in bags 6 is got into episphere die cavity 53 by press-powder hole 52;Molding press 7 continues traveling downwardly, packed Powder 6 and metallic framework 4, powder 2 are squeezed into one, form complete Ceramic Balls base 12；It is again turned on the electricity of magnechuck 8 Source, molding press 7 drives episphere die cavity 53 to rotate, and is rotated into walking to few 3 circles, and episphere die cavity 53 is by Ceramic Balls base 12 surface Unnecessary blank machines away；Molding press 7 is mentioned subsequently, drives episphere mould 5 to leave Ceramic Balls base 12.

4) ball base transfer: lower semisphere mould 1 is transported to station four, by transfer device 11, Ceramic Balls base 12 is shifted.

Described above to the disclosed embodiments, only for making professional and technical personnel in the field be capable of or using this Invention.Multiple amendment to these embodiments will be apparent from for those skilled in the art, herein institute The General Principle of definition can realize without departing from the spirit or scope of the present invention in other embodiments.Therefore, The present invention is not intended to be limited to the embodiments shown herein, and is to fit to special with principles disclosed herein and novelty The widest scope that point is consistent.

Claims (9)

1. the vacuum shaping equipment of the Ceramic Balls of a built-in metal skeleton, it is characterised in that: include stepping conveying belt (13) With by its transmission, use NULL to make, be provided with the lower semisphere mould (1) of ball mould sealing ring (10), lower half at upper surface Ball mould (1) in transmitting procedure at least through four stations；Wherein station one is provided above conveying pipeline (3)；Above station two It is provided with the device placing metallic framework (4)；Station three is provided above in inner chamber being placed with the episphere mould of powder lot in bags (6) (5), this episphere mould is provided above the molding press (7) using electromagnetism to connect by magnechuck (8) therewith, molding press (7) Lower end is provided with that the scalable upper entrance (51) with episphere mould (5) mates, position, termination is provided with piston rod packing circle (9) piston rod, molding press (7) shell is provided with magnechuck (8), at the upper entrance (51) of described episphere mould (5) Bottom be provided with the press-powder hole (52) communicated with episphere die cavity (53), in press-powder hole (52) position of episphere die cavity (53) Another side be provided with and be connected with vacuum pump, the outlet of episphere die cavity (53) is provided with hydrophobic, air-permeability defecator (55) Vacuum drawn hole (54)；Station four is provided above transfer device (11).

The vacuum shaping equipment of the Ceramic Balls of built-in metal skeleton the most according to claim 1, it is characterised in that: molding press (7) rotary system, jacking system it are built-in with.

The vacuum shaping equipment of the Ceramic Balls of built-in metal skeleton the most according to claim 2, it is characterised in that: step-by-step movement Conveyer belt (13) uses elliptical orbit.

4., according to the vacuum shaping equipment of the Ceramic Balls of the built-in metal skeleton described in any of the above-described claim, its feature exists In: it is provided with the positioning pit of shape as lower semisphere mould (1) bottom on stepping conveying belt (13).

The vacuum shaping equipment of the Ceramic Balls of built-in metal skeleton the most according to claim 4, it is characterised in that: conveying step Enter the upper positioning pit arranged of formula conveyer belt (13) and all use pentagon, square or triangle with lower semisphere mould (1) bottom.

The vacuum shaping equipment of the Ceramic Balls of built-in metal skeleton the most according to claim 5, it is characterised in that: transfer dress Putting (11) is negative-pressure adsorption-type.

The vacuum blank-making method of the Ceramic Balls of built-in metal skeleton the most according to claim 6, it is characterised in that include with Lower step:

1) first watering powder: lower semisphere mould (1) is transported to station one by stepping conveying belt (13), by the powder of ceramic prilling (2) being poured into lower semisphere mould (1) by conveying pipeline (3), the moisture control of powder (2) is below 0.5%；

2) skeleton dropping place: lower semisphere mould (1) is transported to station two, then by placing the device of metallic framework (4) by entirety The centre of surface position of the powder (2) that the dendroid of die cast or the metallic framework (4) of herring-bone form are placed in lower semisphere mould (1) Put；

3) spheroid pressing full circle: lower semisphere mould (1) is transported to station three；Powder lot in bags (6) is put into the upper of episphere mould (5) Portion's entrance (51), then the piston rod of molding press (7) bottom stretches into upper entrance (51), opens the power supply of magnechuck (8), pressure Mould machine (7) is connected fixing with episphere mould (5) by electromagnetism；Molding press (7) drives episphere mould (5) descending, to upper half subsequently Ball mould (5) contacts with lower semisphere mould (1), closes the power supply of magnechuck (8), and now ball mould sealing ring (10) makes outside air not Ball die cavity can be entered by the gap between episphere mould (5) and lower semisphere mould (1)；Open vacuum pump, by vacuum drawn hole (54) evacuation is started；The piston rod of molding press (7) is descending, and by the effect of ball mould sealing ring (10), air can not pass through upper half The upper entrance (51) of ball mould (5) enters ball die cavity；The sack of powder lot in bags (6) is crushed, in it by the piston rod of molding press (7) Powder lot in bags (6) got into episphere die cavity (53) by press-powder hole (52);Molding press (7) continues traveling downwardly, powder lot in bags (6) it is squeezed into one with metallic framework (4), powder (2), forms complete Ceramic Balls base (12)；It is again turned on magnechuck (8) power supply, molding press (7) drives episphere die cavity (53) to rotate, and is rotated into walking to few 3 circles, and episphere die cavity (53) will pottery The unnecessary blank on porcelain ball base (12) surface machines away；Molding press (7) is mentioned subsequently, drives episphere mould (5) to leave Ceramic Balls base (12)；

4) ball base transfer: lower semisphere mould (1) is transported to station four, is shifted Ceramic Balls base (12) by transfer device (11).

The vacuum blank-making method of the Ceramic Balls of built-in metal skeleton the most according to claim 7, it is characterised in that: at station One 48-52% that powder (2) is the total consumption of Ceramic Balls filled.

The vacuum blank-making method of the Ceramic Balls of built-in metal skeleton the most according to claim 8, it is characterised in that: station three The capacity of powder lot in bags (6) should be the volume in press-powder hole (52) and the total consumption of Ceramic Balls 55-58%'s and.