CN113997156B - Liquid supply system of ultra-high precision bearing rolling element grinding ball - Google Patents

Abstract

The invention discloses a liquid supply system for ultra-high precision bearing rolling element grinding balls, which structurally comprises a plurality of grinding ball machines, wherein the grinding ball machines are respectively provided with a water inlet and a water outlet, the structure also comprises a water tank and a liquid supply controller, the water tank is divided into a clear water liquid storage area and a sewage collection area from top to bottom, a one-way check valve is arranged between the clear water liquid storage area and the sewage collection area, the clear water liquid storage area is respectively provided with an automatic liquid supplementing port and a clear water outlet, the bottom of the sewage collection area is respectively provided with a sewage inlet, a slag fishing device and a slag outlet, the end part of the slag outlet is inclined upwards and is communicated with a waste residue collection box, the slag fishing device enables precipitated waste residues to enter the waste residue collection box through the slag outlet, the waste residue collection box is communicated with a filter press, the filter press is respectively provided with a slag mud extrusion port and a liquid collection tank, and the slag mud extrusion port is provided with an outward conveying surface.

Description

Liquid supply system of ultra-high precision bearing rolling element grinding ball

The technical field is as follows:

the invention relates to the technical field of production of wind power large balls, in particular to a liquid supply system for a rolling body grinding ball of an ultrahigh precision bearing.

Background art:

due to green and environmental protection, wind power generation is highly emphasized by various countries in the world in recent years, and the situation of the wind power industry is rapidly developed. 3000 ten thousand steel balls special for wind power bearings are required in the wind power market of China, and 15 hundred million steel balls are required in the international market, so that the steel balls special for wind power generation have wide market prospects, and the steel ball bearings on wind power generators generally have the following characteristics: yaw bearing, change oar bearing, generator bearing.

In the manufacturing process of steel ball, generally need to pass through several big processes such as cold heading, the photosphere, heat treatment, the hard grinding, the rough grinding, detect a flaw, lapping and washing, wherein, in the die machining process of wind-powered electricity generation macrosphere, generally adopt the stone wheel to polish, this impurity that just leads to the delivery port of ball-milling board to produce a large amount of large granules, and among the prior art, the ball-milling board generally adopts the single-machine to supply liquid, every equipment sets up a water pump and water tank promptly, however in large-scale workshop, have hundreds of balls of grinding board even more, this running cost and workman intensity of labour that leads to the enterprise are very big, and need regularly clear up the large granule impurity of water tank inside, clean inconveniently, waste work, secondly, because the auxiliary liquid has great volatility, can lead to the concentration of the inside liquid of water tank to change greatly, thereby lead to the product quality height suddenly low, hardly form the overall control to whole wind-powered electricity generation macrosphere quality.

The invention content is as follows:

the present invention is directed to a fluid supply system for ultra-high precision bearing rolling element grinding balls that solves one or more of the problems set forth above.

In order to solve the technical problems, the invention provides a liquid supply system for ultra-high precision bearing rolling element grinding balls, which structurally comprises a plurality of grinding ball machine tables, wherein the grinding ball machine tables are respectively provided with a water inlet and a water outlet, and the innovation points are as follows: the structure of the device also comprises a water tank and a liquid supply controller, the water tank is divided into a clear water liquid storage area and a sewage collection area from top to bottom, a one-way check valve is arranged between the clear water liquid storage area and the sewage collection area, the liquid flowing direction of the one-way check valve faces the clear water liquid storage area, an automatic liquid supplementing port and a clear water outlet are respectively arranged on the clear water liquid storage area, a sewage inlet, a slag salvaging device and a slag outlet are respectively arranged at the bottom of the sewage collection area, the end part of the slag outlet is inclined upwards and is communicated with a waste residue collecting box, the precipitated waste residue enters the waste residue collecting box through the slag outlet by the slag salvaging device, the waste residue collecting box is communicated with a filter press, a sludge extrusion port and a accumulated liquid collecting tank are respectively arranged on the filter press, a conveying surface for conveying the accumulated liquid is arranged on the sludge extrusion port, the accumulated liquid collecting tank is communicated with the interior of the clear water liquid storage area, a water inlet is provided with a water circulating pipeline and is communicated with the clear water outlet, and a water outlet is arranged on the water outlet and is communicated with the sewage inlet;

all be equipped with photoelectric sensor on the ball board, the inside of water circulating pipeline, water inlet circulating pipeline all is equipped with flow sensor, is equipped with the sewage transfer case on the water circulating pipeline, is equipped with the sewage pump between sewage transfer case and the sewage import, and the inside of sewage transfer case is equipped with level sensor, and the liquid supply controller control sewage pump is opened or is closed, and level sensor, photoelectric sensor, flow sensor all are connected with the liquid supply controller electricity.

Furthermore, the above-mentioned circulation pipeline of intaking includes inlet channel, the drawing liquid pump of intaking and a plurality of intake shunt canals, and the input of drawing liquid pump of intaking, output are linked together with inlet channel, clear water export respectively, and the one end of a plurality of intake shunt canals is linked together with the water inlet respectively one by one, and the other end of a plurality of intake shunt canals all is linked together with the inlet channel, and the drawing liquid pump of intaking of confession liquid controller control is opened or is closed.

Furthermore, above-mentioned water circulation pipeline includes outlet conduit, play water drawing liquid pump and a plurality of moisture flow distribution pipeline, and a plurality of moisture flow distribution pipeline's one end is linked together with the delivery port one by one respectively, and a plurality of moisture flow distribution pipeline's the other end all is linked together with outlet conduit, and outlet conduit communicates in the inside of sewage transfer case, and the input of play water drawing liquid pump, output are linked together with sewage pump, sewage inlet respectively, and the confession liquid controller control goes out the water drawing liquid pump and opens or close.

Further, above-mentioned drag for sediment device includes a plurality of V templates, set up two driving shafts in sewage collection region bottom, two driven shafts, distance between driving shaft and the driven shaft equals the length in sewage collection region, two driven shaft symmetric positions are at the top of slag notch, equal tensioning has the conveying chain between driving shaft and the driven shaft, the both ends of V template are fixed respectively on two conveying chains and the direction of transfer of extending and conveying chain is unanimous, when conveying chain drives the V template and moves towards the slag notch direction, the open-ended direction of extending of V template is towards the bottom in sewage collection region all the time.

Furthermore, a plurality of turnover plates capable of being hinged and moving are arranged inside the V-shaped plate opening, and the extension direction of the turnover plates faces the outer side of the V-shaped plate opening.

The invention has the beneficial effects that:

1. the invention provides a liquid supply system for a grinding ball of an ultra-high precision bearing rolling body, which has the following advantages: the labor intensity of workers is reduced, the energy is saved, the consumption is reduced, the production quality of the wind-power large ball is improved, the using amount of the original auxiliary materials is saved, the environmental protection problem of a production workshop is solved, and the secondary recycling of waste liquid is realized.

2. The invention provides a liquid supply system of a super-high precision bearing rolling element grinding ball, most of waste liquid impurities discharged by a grinding ball machine table are coarse sand and other impurities with larger particle sizes, the impurities can be quickly precipitated at the bottom of a sewage collection area, the upper layer of the sewage collection area is reusable liquid, the liquid can enter a clear water liquid storage area for recycling under the action of a one-way check valve, the utilization rate of effective liquid is improved, the impurities precipitated at the bottom of the sewage collection area can enable precipitates to enter a waste residue collection box through a slag outlet under the action of a slag dragging device, the arrangement that the slag outlet is inclined upwards can prevent the liquid in the sewage collection area from flowing out of the slag outlet, waste residues in the waste residue collection box enter a filter press, the waste residues are extruded into a liquid accumulation collection tank under the action of the filter press, the liquid in the liquid accumulation collection tank can also be recycled and enter a clear water liquid storage area, the waste residues are flattened into a slag sludge extrusion port, the flattened waste residues are in a solid state, the slag sludge extrusion port is conveyed outwards for collection, the collected waste residues can be sold outwards, and the cost of enterprises is saved.

3. The invention provides a liquid supply system for an ultra-high precision bearing rolling element grinding ball, wherein in the changing process of the opening direction of a V-shaped plate, a turning plate can freely hinge along with the switching direction of the opening of the V-shaped plate, and the hinge activity can act on the scraped sediment in the V-shaped plate, so that the dropping of the sediment in the V-shaped plate is facilitated, and the removal efficiency of the sediment at the bottom of a sewage collection area is improved.

Description of the drawings:

fig. 1 is a schematic side view of the present invention.

Fig. 2 is a side view of the V-shaped plate of the present invention.

The specific implementation mode is as follows:

for the purpose of enhancing the understanding of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

Fig. 1 to 2 show a specific embodiment of the present invention, which structurally includes a plurality of ball grinding machine tables 1, the ball grinding machine tables 1 are respectively provided with a water inlet 11 and a water outlet 12, the structure further includes a water tank 2 and a liquid supply controller, the water tank 2 is divided into a clear water storage area 21 and a sewage collection area 22 from top to bottom, a one-way check valve 101 is disposed between the clear water storage area 21 and the sewage collection area 22, the liquid flowing direction of the one-way check valve 101 faces the clear water storage area 21, the clear water storage area 21 is respectively provided with an automatic liquid supplementing port 211 and a clear water outlet 212, the bottom of the sewage collection area 22 is respectively provided with a sewage inlet 221, a slag dragging device 3 and a slag outlet 222, the end of the slag outlet 222 is inclined upward and is communicated with a slag collection tank 4, the slag device 3 makes precipitated slag enter the slag collection tank 4 through the slag outlet 222, the slag collection tank 4 is communicated with a filter press 5, the filter 5 is respectively provided with a slag extrusion port 51 and a collection tank 52, the slag sludge extrusion port 51 is provided with an outer accumulated liquid collection tank 52, the inner part of the clear water storage area 21 is communicated with a clear water inlet 221 and a clear water outlet 12, and a clear water circulation pipeline 12 and a clear water outlet 12 are provided on which are communicated with a clear water circulation pipeline 12;

all be equipped with photoelectric sensor on ball board 1, the inside of going out water circulating line 7, water circulating line 6 all is equipped with flow sensor, is equipped with sewage transfer case 8 on the play water circulating line 7, is equipped with sewage pump 102 between sewage transfer case 8 and the sewage import 221, and the inside of sewage transfer case 8 is equipped with level sensor, and the confession liquid controller control sewage pump 102 is opened or is closed, and level sensor, photoelectric sensor, flow sensor all are connected with the confession liquid controller electricity.

In the invention, in the processing process of the grinding ball machine table 1, the working principle of the liquid supply system is as follows:

1. the process of the inlet 11 liquid inlet is as follows: under the effect of external water pump, the inside liquid (effective liquid) of clear water stock solution district 21 gets into water inlet 11 through inlet circulation pipeline 6 to make every ball machine 1 can both obtain supplying water, along with the continuous water supply of ball machine 1, when the liquid level decline of clear water stock solution district 21 inside crosses lowly, from automatic fluid infusion mouth 211 to the inside automatic fluid infusion of clear water stock solution district 21, guaranteed the confession liquid that ball machine 1 lasts.

2. The process of discharging liquid from the water outlet 12 is as follows: the liquid inside ball-milling machine platform 1 is discharged through water outlet 12, the discharged liquid has dust, impurities such as coarse sand, the discharged liquid is called waste liquid, the waste liquid enters sewage transfer box 8 through water outlet circulation pipeline 7, the waste liquid inside sewage transfer box 8 is under the action of sewage pump 102, the waste liquid enters sewage collection area 22 through sewage inlet 221, after the waste liquid enters sewage collection area 22, because most of the impurities inside the waste liquid are impurities with large particle sizes such as coarse sand, the impurities can be rapidly precipitated at the bottom of sewage collection area 22, the upper layer of sewage collection area 22 is reusable liquid, the liquid can enter clear water storage area 21 for recycling under the action of one-way check valve 101, the utilization rate of effective liquid is improved, the impurities precipitated at the bottom of sewage collection area 22 are under the action of slag dragging device 3, so that the precipitates enter waste water collection tank 4 through slag outlet 222, the arrangement that the liquid inside sewage collection area 22 can be prevented from flowing out through liquid outlet 222 obliquely upwards, the impurities inside slag outlet 4 enters filter press, the impurities precipitated at slag collection area 5, the residues can be squeezed out of solid waste residue collection area 52, and the waste residues can be squeezed out of waste residue collection tank, and the waste residue collection area 52, and the waste residues can be squeezed out of an enterprise, and the waste residue collection area is flattened.

In the invention, in the liquid supply process of the grinding ball machine table 1, the photoelectric sensor opens the grinding ball machine tables 1 with proper quantity according to the needs of enterprises, the total amount of liquid required by the grinding ball machine tables 1 with different quantity and the total amount of discharged waste liquid are different, therefore, according to the quantity of the grinding ball machine tables 1 opened by the photoelectric sensor, the liquid supply controller monitors the flow of liquid in the water outlet circulating pipeline 7 and the water inlet circulating pipeline 6 at any time through the flow sensor, so that the liquid flow in the grinding ball machine table 1 can be controlled, and the liquid flow can be divided into the following two conditions:

1. when liquid flow is more, the purpose of temporarily depositing waste liquid can be played to sewage transfer case 8, avoids a large amount of waste liquid to all pour into sewage collecting region 22, and the efficiency that leads to waste liquid to remove impurity can not keep up with the speed that waste liquid flowed in, and a large amount of waste liquid is piled up in sewage collecting region 22, can lead to waste liquid to spill over from slag notch 222, not only can cause waste liquid to pollute workshop environment, influences the effect that waste liquid removed impurity moreover.

2. When liquid flow is less, level sensor monitors the inside liquid level volume of sewage transfer case 8 at any time, the waste liquid can be temporarily piled up gradually in sewage transfer case 8's inside, and need not directly flow in sewage collecting region 22, at this moment, can close drags for sediment device 3, pressure filter 5, at this moment, because the waste liquid is too little, need not to get into sewage collecting region 22 and clear away impurity, the consumption of the energy has been reduced, when level sensor monitors the waste liquid of sewage transfer case 8 inside and reaches a certain amount, open sewage pump 102, sewage pump 102 sends the waste liquid into sewage collecting region 22 again, at this moment, reopen drags for sediment device 3, pressure filter 5, thereby the efficiency of cleaing away of waste liquid impurity has been guaranteed.

In the present invention, as a preferable scheme, the water inlet circulation pipeline 6 includes a water inlet pipeline 61, a water inlet liquid pump 62 and a plurality of water inlet diversion pipelines 63, an input end and an output end of the water inlet liquid pump 62 are respectively communicated with the water inlet pipeline 61 and the clean water outlet 212, one ends of the plurality of water inlet diversion pipelines 63 are respectively communicated with the water inlet 11 one by one, the other ends of the plurality of water inlet diversion pipelines 63 are respectively communicated with the water inlet pipeline 61, and the liquid supply controller controls the water inlet liquid pump 62 to be opened or closed.

In the present invention, the flow process of the water inlet circulation pipe 6 is as follows: the liquid flows by the intake liquid pump 62, and the liquid in the clean water storage area 21 preferentially enters the intake pipe 61 and then flows into the intake port 11 through the intake water diversion pipe 63.

In the present invention, as a preferable scheme, the water outlet circulation pipeline 7 includes a water outlet pipeline 71, a water outlet liquid pump 72, and a plurality of water outlet branch pipelines 73, one end of each of the plurality of water outlet branch pipelines 73 is respectively communicated with the water outlet 12, the other ends of the plurality of water outlet branch pipelines 73 are respectively communicated with the water outlet pipeline 71, the water outlet pipeline 71 is communicated with the inside of the sewage transferring box 8, the input end and the output end of the water outlet liquid pump 72 are respectively communicated with the sewage pump 102 and the sewage inlet 221, and the liquid supply controller controls the water outlet liquid pump 72 to be opened or closed.

In the present invention, the flow process of the water outlet circulation pipeline 7 is as follows: the waste liquid flows by taking the sewage pump 102 and the effluent liquid pump 72 as power, after flowing out from the water outlet 12, the waste liquid flows into the interior of the water outlet pipeline 71 through the plurality of effluent water diversion pipelines 73, under the action of the sewage pump 102, the waste liquid flows into the interior of the sewage transfer tank 8 through the water outlet pipeline 71, when the liquid level sensor monitors that the waste liquid in the interior of the sewage transfer tank 8 reaches a certain amount, the effluent liquid pump 72 is opened, and the waste liquid in the interior of the sewage transfer tank 8 flows to the position of the sewage inlet 221 and finally enters the sewage collection area 22.

In the invention, as a preferable scheme, the slag dragging device 3 comprises a plurality of V-shaped plates 31, two driving shafts 32 and two driven shafts 33 which are arranged at the bottom of the sewage collecting area 22, the distance between the driving shafts 32 and the driven shafts 33 is equal to the length of the sewage collecting area 22, the two driven shafts 33 are symmetrically positioned at the top of the slag outlet 222, a conveying chain 103 is tensioned between the driving shafts 32 and the driven shafts 33, two ends of each V-shaped plate 31 are respectively fixed on the two conveying chains 103, the extending direction of each V-shaped plate 31 is consistent with the conveying direction of the conveying chains 103, and when the conveying chains 103 drive the V-shaped plates 31 to move towards the slag outlet 222, the extending direction of the opening of each V-shaped plate 31 always faces the bottom of the sewage collecting area 22.

In the invention, the working principle of the slag dragging device 3 is as follows: when the sediment of waste liquid deposits the bottom in sewage collection region 22 gradually, the external world provides power for driving shaft 32 and drives driven shaft 33 and rotate, conveying chain 103 carries out the circulation conveying in sewage collection region 22's bottom, thereby drive V template 31 and carry out the circulation conveying in sewage collection region 22's bottom, when V conveying chain 103 drives V template 31 and moves towards the direction of slag notch 222, because the opening of V template 31 is towards the bottom in sewage collection region 22, thereby make things convenient for the opening of V template 31 to scrape the sediment of sewage collection region 22 bottom, and drive the direction removal of the sediment of scraping towards slag notch 222, when V template 31 moves the position of driven shaft 33, the direction of transfer of V template 31 can become and keep away from slag notch 222, in this process, V template 31 opening direction can change, that is V template 31's opening direction from downwards to upwards, this direction change process can make the sediment that V template opened scraping the bottom of sewage collection region 22 drop from slag notch 222 and get into waste residue collection box 4 gradually, thereby the waste residue collection box's bottom is scraped and the sediment collection box 4 is cleared into to the waste residue collection box.

In the present invention, preferably, a plurality of hinged flaps 311 are provided inside the opening of the V-shaped plate 31, and the extending direction of the flaps 311 faces the outside of the opening of the V-shaped plate 31.

In the invention, in the process of changing the opening direction of the V-shaped plate 31, the turning plate 311 can freely hinge along with the switching direction of the opening of the V-shaped plate 31, and the hinge activity can act on the sediment scraped inside the V-shaped plate 31, so that the sediment inside the V-shaped plate 31 can fall off, and the removal efficiency of the sediment at the bottom of the sewage collection area 22 is improved.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a liquid supply system of super high-precision bearing rolling element ball, its structure includes a plurality of ball board (1), be equipped with water inlet (11), delivery port (12) on ball board (1) respectively, its characterized in that: the structure of the waste residue collecting device comprises a water tank (2) and a liquid supply controller, the water tank (2) is divided into a clear water liquid storage area (21) and a waste water collecting area (22) from top to bottom, a one-way check valve (101) is arranged between the clear water liquid storage area (21) and the waste water collecting area (22), the liquid flowing direction of the one-way check valve (101) faces to the clear water liquid storage area (21), an automatic liquid supplementing hole (211) and a clear water outlet (212) are respectively arranged on the clear water liquid storage area (21), the bottom of the waste water collecting area (22) is respectively provided with a waste water inlet (221), a slag salvaging device (3) and a slag outlet (222), the end part of the slag outlet (222) inclines upwards and is communicated with a collecting box (4), the slag salvaging device (3) enables precipitated waste residues to enter the waste residue collecting box (4) through the slag outlet (222), a filter press filter (5) is communicated with the waste residue collecting box (4), the waste residue extruding hole (51) and a liquid collecting groove (52) are respectively arranged on the filter press filter (5), the waste residue extruding hole (51) is provided with a conveying surface conveying the clear water outlet (511) and a clear water circulating pipeline (11) communicated with the clear water collecting groove (21), the water outlet (12) is provided with a water outlet circulating pipeline (7) and communicated with the sewage inlet (221);

all be equipped with photoelectric sensor on ball board (1), go out water circulating line (7), the inside of intaking circulating line (6) all is equipped with flow sensor, be equipped with sewage transfer case (8) on going out water circulating line (7), sewage transfer case (8) with be equipped with sewage pump (102) between sewage import (221), the inside of sewage transfer case (8) is equipped with level sensor, the control of confession liquid controller sewage pump (102) are opened or are closed, level sensor photoelectric sensor flow sensor all with the confession liquid controller electricity is connected.

2. The liquid supply system for the ultra-high precision bearing rolling element grinding ball as claimed in claim 1, wherein: the water inlet circulation pipeline (6) comprises a water inlet pipeline (61), a water inlet liquid pump (62) and a plurality of water inlet branch pipelines (63), wherein the input end and the output end of the water inlet liquid pump (62) are respectively communicated with the water inlet pipeline (61) and a clear water outlet (212), one ends of the water inlet branch pipelines (63) are respectively communicated with the water inlet (11) one by one, the other ends of the water inlet branch pipelines (63) are communicated with the water inlet pipeline (61), and the water supply controller controls the water inlet liquid pump (62) to be opened or closed.

3. The liquid supply system for the ultra-high precision bearing rolling element grinding ball as claimed in claim 1, wherein: the water outlet circulation pipeline (7) comprises a water outlet pipeline (71), a water outlet liquid pump (72) and a plurality of water outlet branch pipelines (73), one ends of the water outlet branch pipelines (73) are communicated with the water outlet (12) one by one respectively, the other ends of the water outlet branch pipelines (73) are communicated with the water outlet pipeline (71), the water outlet pipeline (71) is communicated with the inside of the sewage transfer box (8), the input end and the output end of the water outlet liquid pump (72) are communicated with the sewage pump (102) and the sewage inlet (221) respectively, and the liquid supply controller controls the water outlet liquid pump (72) to be opened or closed.

4. The liquid supply system for the ultra-high precision bearing rolling element grinding ball as claimed in claim 1, wherein: drag for sediment device (3) and include a plurality of V template (31), set up two driving shaft (32), two driven shafts (33) of sewage collection region (22) bottom, driving shaft (32) with distance between driven shaft (33) equals the length of sewage collection region (22), two driven shaft (33) symmetric position is in the top of slag notch (222), driving shaft (32) with equal tensioning has transfer chain (103) between driven shaft (33), the both ends of V template (31) are fixed respectively two on transfer chain (103) and extending direction with the direction of transfer chain (103) is unanimous, transfer chain (103) drive V template (31) orientation when slag notch (222) direction removes, the extending direction of V template (31) opening is towards all the time the bottom of sewage collection region (22).

5. The liquid supply system for the ultra-high precision bearing rolling element grinding ball as claimed in claim 4, wherein: a plurality of hinged turning plates (311) are arranged inside the opening of the V-shaped plate (31), and the extending direction of the turning plates (311) faces the outer side of the opening of the V-shaped plate (31).

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