CN110076622A - A kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank - Google Patents

Abstract

This application involves bed piece technical fields, disclose a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank, including flow guiding unit and splashproof unit below lathe cooling water gravity flow portion is arranged in, flow guiding unit is arranged close to cooling water gravity flow portion end, the flow guiding unit includes L-shaped several first leak holes for being oriented to flow distribution plate and be arranged on guiding flow distribution plate, the guiding flow distribution plate includes guide part and distributary division, and several first leak holes are evenly arranged on distributary division；One end of distributary division is arranged in the bottom end of guide part and is located at the side in cooling water gravity flow portion, and the other end of distributary division is located at the other side in cooling water gravity flow portion；The splashproof unit is located at the side of flow guiding unit and the end far from cooling water gravity flow portion.This programme can prevent cooling water from splashing out from water tank, to reduce the contaminated possibility in workshop.

Description

A kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank

Technical field

The invention belongs to bed piece technical fields.

Background technique

Lathe refers mainly to lathe and milling machine, and lathe is widely used in mechanical processing industry, for accurate complicated various The multi items of revolving parts are processed.

Existing lathe needs to use cooling water during processing to workpiece, and cooling water gradually flows to lathe In cooling water gravity flow portion at low spot, then is flowed into and be located in the middle part of lathe in the water tank of lower section by cooling water gravity flow portion.Due to high speed The cutterhead of operation drives the low spot of the high fast direction water tank of cooling water or high fast direction lathe, and flows along the cooling water gravity flow portion of lathe Enter in water tank.Since cooling water has biggish speed when cooling water flows dynamic from stream interface, these cooling waters are directly fallen to In water tank, the cooling water in water tank can be evoked to even splashing water tank, these cooling waters and fall on the bottom plate of workshop, can pollute Shopwork environment, and be easy to spread to water along the bottom surface in cooling water gravity flow portion along the cooling water of cooling water gravity flow portion flowing Outside case, it is further exacerbated by the pollution in workshop.In addition, splashing to ground since the water of the splashing water tank generally all contains greasy dirt The tidiness that workshop has not only been seriously affected behind face, is also difficult to clean, and enhances the labor intensity of worker.

Summary of the invention

The purpose of the present invention is to provide a kind of water conservancy diversion Antisplash machanisms for preventing cooling water from splashing out water tank, to solve background skill Cooling water splashes out the problem of water tank in art.

In order to achieve the above object, base case of the invention provides a kind of water conservancy diversion splashproof for preventing cooling water from splashing out water tank Mechanism, including being arranged in flow guiding unit and splashproof unit below lathe cooling water gravity flow portion, flow guiding unit close to cooling water from Stream portion end setting, the flow guiding unit include it is L-shaped guiding flow distribution plate and be arranged in guiding flow distribution plate on several first Leak hole, the guiding flow distribution plate include guide part and distributary division, and several first leak holes are evenly arranged on distributary division；One end of distributary division The bottom end of guide part is set and is located at the side in cooling water gravity flow portion, the other end of distributary division is located at the another of cooling water gravity flow portion Side；The splashproof unit is located at the side of flow guiding unit and the end far from cooling water gravity flow portion.

The principle and beneficial effect of this base case are:

(1) this programme can prevent cooling water from splashing out from water tank, to reduce the contaminated possibility in workshop.Wherein, it leads Flowing unit can realize that the dispersion of cooling water flows into, reduce stream during cooling water flows to water tank by cooling water dispersion The gravitional force of the cooling water entered, to prevent cooling water from splashing out water tank from early period；The splashproof unit of this programme can prevent cold But water splashes again after falling into water tank and splashes out water tank, to prevent cooling water from splashing out water tank from the later period；Pass through flow guiding unit With the mutual security of splashproof unit, it can prevent the cooling water flowed down from cooling water gravity flow portion from splashing out water tank, prevent mill floor quilt Cooling water pollution ensure that the tidiness of mill floor, reduce the cleaning difficulty of worker's dressing shop.

(2) in the flow guiding unit of this programme, the both ends of distributary division are located at the down either side in cooling water gravity flow portion, so that Part cooling water gradually flows to the guide part of guiding flow distribution plate along cooling water gravity flow portion bottom surface, then gradually flows to shunt by guide part In each first leak hole in portion, if the weight of sub-thread water flow is reduced, in difference in height so that cooling water is divided into carried interest water flow In identical situation, the gravitional force of the sub-thread water flow formed after being split is reduced such that when cooling water flows into water tank to water The impact that cooling water in case generates reduces, and comes to be difficult to splash after allowing cooling water to flow to water tank, and then plays and prevent from cooling down The function of water spillage water tank.

(3) in the flow guiding unit of this programme, the part cooling water flow down from guide part flow to distributary division along distributary division Edge after, may flow to the bottom surface of distributary division and along bottom surface toward on the outside of water tank direction spread.And flow to cooling water gravity flow Another part cooling water in portion can directly fall on middle part or the right part of distributary division above and below cooling water gravity flow portion, and in distributary division Vertical cascade is formed in first leak hole of middle part or right part, on the one hand these cascades are able to drive and spread to distributary division bottom surface It is fallen in water tank under cooling water, on the other hand can also play the role of barrier to the cooling water for spreading to distributary division bottom surface, prevented Only cooling water continues to spread along distributary division bottom surface toward splashproof cell orientation, to prevent cooling water from spreading to outside water tank.

Optionally, the splashproof unit includes the splash-back for being fixed on cooling water gravity flow portion bottom surface, and splash-back is located at guiding The side of flow distribution plate, and splashproof slot is formed between splash-back and guiding flow distribution plate；Splash-back bottom is equipped with splashproof diffusing component.

If can be stopped by splash-back in the present solution, cooling water splashes to come again after flowing into water tank, so that cooling water is along anti- Plate is splashed gradually to flow back into water tank；The cooling water that splashproof slot can reduce on guiding flow distribution plate is spread along cooling water gravity flow portion bottom surface To the probability outside splash-back even water tank, reduces cooling water and fall on the probability of workshop bottom surface, to improve mill floor Tidiness.

Optionally, the splashproof diffusing component includes the sliding slot that splash-back bottom is arranged in, and is fixed with elastic component in sliding slot, Slide plate is connected on elastic component, slide plate slides are connected in sliding slot, and slide plate bottom is connected with inverted funnel, if funnel is equipped with Dry the second leak hole.

The splashproof diffusing component of this programme is mainly made of elastic component, slide plate, funnel, and the cooling water splash from water tank is beaten It on splash-back, and gradually flows downwardly on funnel along splash-back, then is leaked out from the second leak hole of funnel, realize point of cooling water Dissipate fall after rise, prevent cooling water because on splash-back convergence form biggish water droplet after directly drip due to cause cooling water to drop onto water It splashes to come again after case, further enhances the effect that water conservancy diversion Antisplash machanism prevents cooling water from splashing out water tank.If the cooling splash Water splashes on inner wall of hopper, then the cooling water flow flowed by funnel outer wall through the second leak hole can cooling to flowing along inner wall of hopper Water plays certain induced effect, so that the water on inner wall of hopper be allowed to fall back in water tank as early as possible.If being flowed down from splash-back Water is larger, and funnel and slide plate move down under the action of cooling water gravity, reduce between funnel bottom and water tank level away from From the impact generated when to reducing cooling water inflow water tank to the cooling water in water tank further decreases cooling water and flows into water Recur the possibility splash after case, so that cooling water be further prevented to splash out water tank.

Optionally, the side of first leak hole laterally offers side opening, and inserted link is removably connected in side opening, and inserted link is in L shape, and the bottom of inserted link is equipped with the shunting disk for further being shunted to cooling water, the diameter of shunting disk is less than the first leakage The diameter in hole.

Inserted link plays certain guide functions to the cooling water flowed into the first leak hole, and shunting disk can be to entering first Cooling water in leak hole is further shunted, when reducing the weight of the cooling water flow of sub-thread to reduce cooling water inflow water tank The probability splash again, and then prevent cooling water from splashing out water tank.And the diameter of shunting disk is less than the diameter of the first leak hole, it is ensured that First leak hole edge has vertical water flow, spreads along guiding flow distribution plate bottom to splashproof cell orientation to obstruct cooling water.

Optionally, the shunting disk includes the diversion trench that disk body is arranged at the top of disk body with several circumferential directions.

Diversion trench circumferentially be arranged on disk body, can by the cooling water flowed down along inserted link and from the first leak hole flow into part If cooling water is further separated into the smaller water flow of carried interest, the weight for reducing the cooling water flow of sub-thread flows into water to reduce cooling water The probability splash again when case, and then prevent cooling water from splashing out water tank.

Optionally, the diversion trench is obliquely installed from disk body center to disk body edge.

The diversion trench being obliquely installed from disk body center to disk body edge can allow cooling water to be more swimmingly drained into water tank, Cooling water is avoided to accumulate on shunting disk.

Optionally, the tilt angle of the diversion trench is 5 ° -15 °.

Tilt angle is that 5 ° -15 ° of diversion trench can play the role of further unhurried current to cooling water, while can allow again cold But water is successfully drained into water tank, prevents cooling water from accumulating.

Optionally, it is described guiding flow distribution plate distributary division be obliquely installed, and inclined direction be from guide part toward cooling water from Inclination on the outside of stream portion.

Distributary division is obliquely installed from guide part toward cooling water gravity flow portion outside, on the one hand can be oriented on flow distribution plate to flowing into Cooling water plays the role of unhurried current and guiding, reduces cooling water and falls on the probability for splashing to come again after water tank；On the other hand also can Enough prevent cooling water flow from the first leak hole flow down or from the right end of distributary division flow down after along distributary division bottom surface toward splashproof unit side To sprawling, prevent cooling water from spreading water tank；It is being oriented in addition, the distributary division being so obliquely installed can also prevent cooling water from accumulating On flow distribution plate, cooling water is allowed more successfully to be flowed into water tank, reduces the waste of cooling water.

Optionally, the tilt angle of the distributary division is 10 ° -25 °.

Tilt angle is that 10 ° -25 ° of distributary division can play further unhurried current and guiding role to cooling water, simultaneously Cooling water can be allowed successfully to be drained into water tank again, prevent cooling water from accumulating.

Optionally, the elastic component is spring.

The elastic component of this programme uses spring, because spring is easy to obtain, cost is relatively low, can reduce changing for this programme entirety It is practical into cost.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the embodiment 1 for the water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank of the present invention；

Fig. 2 is the enlarged drawing in Fig. 1 at A；

Fig. 3 is the structural schematic diagram that flow distribution plate is oriented in Fig. 2；

Fig. 4 is the structural schematic diagram of splash-back in Fig. 2；

Fig. 5 is the side sectional view for being oriented to flow distribution plate and splash-back；

Fig. 6 is a kind of structural schematic diagram of the embodiment 2 for the water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank of the present invention；

Fig. 7 is the enlarged drawing in Fig. 6 at B；

Fig. 8 is the structural schematic diagram of shunting disk and inserted link in Fig. 7.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description includes: cooling water gravity flow portion 1, guide part 2, distributary division 3, the first leak hole 4, prevents Splash plate 5, sliding slot 6, spring 7, slide plate 8, funnel 9, the second leak hole 10, splashproof slot 11, inserted link 12, shunting disk 13, disk body 14, water conservancy diversion Slot 15, guiding flow distribution plate 16.

Embodiment 1

A kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank, is mainly made of flow guiding unit and splashproof unit.Knot It closes shown in attached drawing 1, attached drawing 2 and attached drawing 3, flow guiding unit is mainly made of guiding flow distribution plate 16 and several first leak holes 4, cooling 1 right part bottom end of water gravity flow portion is integrally formed or is equipped with guiding flow distribution plate 16, and guiding flow distribution plate 16 is L-shaped, is oriented to flow distribution plate 16 The distributary division 3 including vertically arranged guide part 2 and being laterally arranged, it is right apart from cooling water gravity flow portion 1 on the right side of the top of guide part 2 The distance at end is 1.5-4cm, preferably 2cm；The left end of distributary division 3 and guide part 2 are integrally formed and are located at cooling water gravity flow portion 1 Lower left, the right end of distributary division 3 is located at the lower right in cooling water gravity flow portion 1；Distributary division 3 is obliquely installed, and inclined direction is It is tilted by upper left lower right, tilt angle is 10 ° -25 °, preferably 13 °.Several first leak holes 4 are evenly arranged on distributary division 3 On.

Splashproof unit is mainly made of splash-back 5, splashproof slot 11, splashproof diffusing component, the installation of splash-back 5 or integrated molding In 1 bottom surface of cooling water gravity flow portion and positioned at the left side of guiding flow distribution plate 16, in conjunction with shown in attached drawing 5, splash-back 5 and guiding flow distribution plate Splashproof slot 11 is formed between 16, splashproof slot 11 can reduce the cooling water on guiding flow distribution plate 16 along 1 bottom surface of cooling water gravity flow portion Spread to the probability outside the even water tank of splash-back 5.The bottom of splash-back 5, splashproof diffusing component master is arranged in splashproof diffusing component It to be made of sliding slot 6, elastic component, slide plate 8, funnel 9, several second leak holes 10, sliding slot 6 is provided with 5 bottom of splash-back, elastic component Top be fixedly connected in sliding slot 6, the bottom of elastic component is fixedly connected with slide plate 8, and elastic component is spring 7, preferably tension spring； It is fixedly connected at the top of the bottom of slide plate 8 and funnel 9, several second leak holes 10 are evenly arranged on funnel 9.In conjunction with shown in attached drawing 4, splashproof Plate 5 and 8 arranged on left and right sides of slide plate are rounding off face, on the one hand can avoid being prevented when worker pulls out water tank or cleaning splash-back 5 Splash plate 5, the angle of slide plate 8 is accidentally injured, on the other hand can also allow the water on splash-back 5 flow to as soon as possible 5 bottom of splash-back and along Slide plate 8, funnel 9 are flow back into water tank.

Specific embodiment are as follows: after flow of cooling water to cooling water gravity flow portion 1, part cooling water can flow automatically along cooling water 1 bottom surface of portion gradually flows to the guide part 2 of guiding flow distribution plate 16, then each first leak hole of distributary division 3 is gradually flowed to by guide part 2 In 4, if reducing the gravity of sub-thread water flow so that cooling water is divided into carried interest water flow, in the identical situation of difference in height, quilt The gravitional force of the sub-thread water flow formed after shunting is reduced such that when cooling water flows into water tank and generates to the cooling water in water tank Impact reduce, come to be difficult to splash after allowing cooling water to flow to water tank, and then play the function of preventing cooling water from splashing out water tank.

From the part cooling water that guide part 2 flows down behind the edge that distributary division 3 flow to distributary division 3, it may flow to It is simultaneously spread along bottom surface toward the direction on the outside of water tank the bottom surface of distributary division 3.And flow to another part cooling water in cooling water gravity flow portion 1 Middle part or the right part of distributary division 3 can directly be fallen on from about 1 cooling water gravity flow portion, and the of 3 middle part of distributary division or right part Vertical cascade is formed in one leak hole 4, on the one hand these cascades are able to drive under the cooling water for spreading to 3 bottom surface of distributary division and fall on In water tank, it on the other hand can also play the role of barrier to the cooling water for spreading to 3 bottom surface of distributary division, prevent cooling water from continuing It is spread along 3 bottom surface of distributary division toward 11 direction of splashproof slot, to prevent cooling water from spreading to outside water tank.

If cooling water splashes to come again after flowing into water tank, can be stopped by splash-back 5, and gradually flowed downwardly to along splash-back 5 The outer wall of funnel 9, then from being leaked out in simultaneously reflow tank in each second leak hole 10 on funnel 9, realize that the dispersion of cooling water is returned Fall, prevent cooling water because on splash-back 5 convergence form biggish water droplet or water flow after directly drip due to cause cooling water to drip It splashes to come again after to water tank, further enhances the effect that water conservancy diversion Antisplash machanism prevents cooling water from splashing out water tank.If splashing Cooling water splashes on 9 inner wall of funnel, then the cooling water flow flowed by 9 outer wall of funnel through the second leak hole 10 can be to along 9 inner wall of funnel The cooling water of flowing plays certain induced effect, so that the water on 9 inner wall of funnel be allowed to fall back in water tank as early as possible.If from splashproof The water flowed down on plate 5 is larger, and funnel 9 and slide plate 8 move down under the action of cooling water gravity, reduce 9 bottom of funnel with Distance between water tank level further drops so that reducing cooling water flows into the impact generated when water tank to the cooling water in water tank Recur the possibility splash after low cooling water inflow water tank, so that cooling water be further prevented to splash out water tank.

The cooling water that splashproof slot 11 can reduce on guiding flow distribution plate 16 spreads to splash-back along 1 bottom surface of cooling water gravity flow portion 5 probability even outside water tank reduces cooling water and falls on the probability of workshop bottom surface, to improve the tidiness of mill floor.

Embodiment 2

The present embodiment difference from example 1 is that: in the present embodiment, on the right side of each first leak hole 4 A side opening laterally is offered, in conjunction with shown in attached drawing 6 and attached drawing 7, a L-shaped inserted link 12, inserted link 12 and side are plugged in side opening Sealing ring is provided between hole.In conjunction with shown in attached drawing 8, the bottom end of inserted link 12 is integrally formed or is equipped with shunting disk 13, shunting disk 13 for further shunting cooling water, and the axis of shunting disk 13 is overlapped with the axis of the first leak hole 4, and shunting disk 13 In the lower section of the first leak hole 4, and the diameter of shunting disk 13 is designed in this way less than the diameter of the first leak hole 4, it is ensured that the first leak hole 4 edge have vertical water flow to flow down, and spread along guiding 16 bottom of flow distribution plate to 11 direction of splashproof slot to obstruct cooling water.It shunts Disk 13 is mainly made of disk body 14 and several diversion trenches 15, and the center of disk body 14 is connect with 12 bottom of inserted link, several water conservancy diversion Slot 15 is circumferential to be evenly arranged on 14 top of disk body, and diversion trench 15 is obliquely installed from 14 center of disk body to 14 edge direction of disk body, inclination angle Degree is 5 ° -15 °, preferably 8 °.

When work, the part cooling water being flowed into the first leak hole 4 can flow on shunting disk 13 along inserted link 12, through excessive It is flowed into water tank again after the shunting of the diversion trench 15 of flow table 13, the further shunting of cooling water is realized, to reduce sub-thread The weight of cooling water flow reduces cooling water and flows into the probability splash again when water tank, and then prevents cooling water from splashing out water tank.And divide Diameter of the diameter of flow table 13 less than the first leak hole 4, it is ensured that 4 edge of the first leak hole has vertical water flow, to guarantee first The cascade that the part cooling water flowed out in leak hole 4 is formed can play the work of barrier to the cooling water for spreading to 3 bottom surface of distributary division With.

What has been described above is only an embodiment of the present invention, and the common sense such as well known specific structure and characteristic are not made herein in scheme Excessive description.It, without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these also should be considered as protection scope of the present invention, these all will not influence what the present invention was implemented Effect and patent practicability.The scope of protection required by this application should be based on the content of the claims, in specification The records such as specific embodiment can be used for explaining the content of claim.

Claims (10)

1. it is a kind of prevent cooling water splash out water tank water conservancy diversion Antisplash machanism, it is characterised in that: including setting lathe cooling water from Flow guiding unit and splashproof unit below stream portion, flow guiding unit are arranged close to cooling water gravity flow portion end, the flow guiding unit packet Several first leak holes for including L-shaped guiding flow distribution plate and being arranged on guiding flow distribution plate, the guiding flow distribution plate include guiding Portion and distributary division, several first leak holes are evenly arranged on distributary division；One end of distributary division is arranged in the bottom end of guide part and is located at cold But the side in water gravity flow portion, the other end of distributary division are located at the other side in cooling water gravity flow portion；The splashproof unit is located at water conservancy diversion The end in the side of unit and separate cooling water gravity flow portion.

2. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 1, it is characterised in that: described Splashproof unit includes the splash-back for being fixed on cooling water gravity flow portion bottom surface, and splash-back is located at the side of guiding flow distribution plate, and splashproof Splashproof slot is formed between plate and guiding flow distribution plate；Splash-back bottom is equipped with splashproof diffusing component.

3. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 2, it is characterised in that: described Splashproof diffusing component includes the sliding slot that splash-back bottom is arranged in, and elastic component is fixed in sliding slot, is connected with slide plate on elastic component, Slide plate slides are connected in sliding slot, and slide plate bottom is connected with inverted funnel, and funnel is equipped with several second leak holes.

4. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 1, it is characterised in that: described The side of first leak hole laterally offers side opening, and inserted link is removably connected in side opening, and inserted link is L-shaped, and the bottom of inserted link is set There is a shunting disk for further being shunted to cooling water, the diameter of the diameter of shunting disk less than the first leak hole.

5. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 4, it is characterised in that: described Shunting disk includes the diversion trench that disk body is arranged at the top of disk body with several circumferential directions.

6. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 5, it is characterised in that: described Diversion trench is obliquely installed from disk body center to disk body edge.

7. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 6, it is characterised in that: described The tilt angle of diversion trench is 5 ° -15 °.

8. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 1, it is characterised in that: described The distributary division of guiding flow distribution plate is obliquely installed, and inclined direction is to be tilted from guide part toward cooling water gravity flow portion outside.

9. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 8, it is characterised in that: described The tilt angle of distributary division is 10 ° -25 °.

10. a kind of water conservancy diversion Antisplash machanism for preventing cooling water from splashing out water tank according to claim 1, it is characterised in that: institute Stating elastic component is spring.