CN209223703U - A kind of coolant liquid recyclable device of drilling machine - Google Patents

Abstract

The utility model relates to the technical fields of drilling machine, disclose a kind of coolant liquid recyclable device of drilling machine, including the nozzle being arranged on drilling machine and the sparge pipe being connected to nozzle, the side of drilling machine is provided with for providing the tank for coolant of coolant liquid, diversion trench is provided on workbench for placing drilling machine, the diversion trench is communicated with liquid reserve tank by catheter, and the diversion trench surrounds the pedestal of drilling machine.By setting diversion trench, catheter and liquid reserve tank, the coolant liquid overflowed on pedestal is recycled, the subsequent processing to coolant liquid is avoided, reduces the pollution of environment.

Description

A kind of coolant liquid recyclable device of drilling machine

Technical field

The utility model relates to the technical fields of drilling machine, more particularly, to a kind of coolant liquid recyclable device of drilling machine.

Background technique

During automobile gearbox produces and processes, need to bore top surface hole, hinge fabrication hole, with two support holes and front end face On the basis of, select special combination drilling machine and special fixture.Drilling machine refers to the main lathe for processing hole on workpiece with drill bit.Usually bore Head rotates to be main motion, and drill bit axial movement is feed motion.Drilling machine structure is simple, and machining accuracy is relatively low, can holes drilled through, Blind hole is replaced special tool, can be expanded, spot-facing, the processing such as fraising or progress tapping.The characteristics of drilling machine is that workpiece is fixed, knife Tool makes rotating motion.

Drill bit can generate huge friction between workpiece when processing, so that many heats are generated, these heats On the one hand it will affect drill bit, workpiece on the other hand can be made heated and generate deformation, so it is drilled towards workpiece to will use nozzle Coolant liquid is sprayed at the position in hole, and a part of heat on drill bit and workpiece is taken away by coolant liquid.And coolant liquid be sprayed onto workpiece with And at drill bit after, coolant liquid is overflowed from the pedestal of drilling machine, to cause cleaning difficult and the pollution of environment.

Utility model content

In view of the deficiency of the prior art, the purpose of this utility model is that being to provide a kind of coolant liquid of drilling machine Recyclable device can recycle the coolant liquid overflowed from pedestal, avoid the subsequent cleaning to coolant liquid, reduce the dirt of environment Dye.

The foregoing invention purpose of the utility model has the technical scheme that

A kind of coolant liquid recyclable device of drilling machine, including the nozzle being arranged on drilling machine and the hydrojet being connected to nozzle Pipe, the side of drilling machine are provided with for providing the tank for coolant of coolant liquid, are provided with water conservancy diversion on the workbench for placing drilling machine Slot, the diversion trench are communicated with liquid reserve tank by catheter, and the diversion trench surrounds the pedestal of drilling machine.

By using above-mentioned technical proposal, when work, workpiece is placed on the base, drilling machine is then started, to workpiece into Row boring work, at the same nozzle against on pedestal workpiece and drill bit spray coolant liquid, to reduce drill bit, workpiece and pedestal Temperature, when coolant liquid is overflowed from pedestal, coolant liquid is flow in diversion trench, then flow to catheter by diversion trench, finally It is recovered in liquid reserve tank and is stored, by setting diversion trench, catheter and liquid reserve tank, the coolant liquid that will be overflowed on pedestal It is recycled, avoids the subsequent processing to coolant liquid, reduce the pollution of environment.

The utility model is further arranged to: being provided with debris removal pipe on the catheter, is provided with magnetic on the debris removal pipe Property layer.

During drill bit carries out boring work to workpiece, it can be generated there are many bushel iron bits, as coolant liquid flow to water conservancy diversion It in slot, then passes in catheter, then flow in debris removal pipe, be adsorbed on a part of bushel iron bits in coolant liquid by magnetosphere On the inner wall of debris removal pipe, so that impurity is reduced in coolant liquid, facilitate subsequent use.

The utility model is further arranged to: being provided with strainer between the debris removal pipe and the liquid reserve tank.

It, can be by the lesser bushel iron bits of partial size and other impurities by the way that strainer is arranged by using above-mentioned technical proposal Filter further makes coolant liquid purer except liquid reserve tank.

The utility model is further arranged to: cooling tube, the cooling are provided between the strainer and the liquid reserve tank Cooling layer is provided in the side wall of pipe.

Workpiece and brill have been taken away since coolant liquid is sprayed on drill bit and workpiece by using above-mentioned technical proposal A part of heat on head, by the way that cooling layer is arranged, can reduce the temperature of coolant liquid, side so that being heated in coolant liquid Continue the recycling of coolant liquid after an action of the bowels.

The utility model is further arranged to: the cooling layer is the water cooling tube being embedded in the cooling tube side wall, work Make platform side and be provided with water pump and sink, the water cooling tube is spiraled distribution centered on the central axis of the cooling tube, described One end of water cooling tube is connected to the water pump, and the other end is connected to the sink.

By using above-mentioned technical proposal, when starting to work, by water pump towards cold water is filled in water cooling tube, cold water is along water Cold pipe enters in the inner wall of cooling tube, when the logical coolant liquid in inside, can absorb by the heat absorption of coolant liquid into cold water There is ardent water to drain into sink, is then followed by circulation, so that the guarantee low temperature that the inner wall of cooling tube is lasting, so as to continue The coolant liquid for absorbing heat is cooled down, structure is simple.

The utility model is further arranged to: delivery tube, and institute are communicated between the liquid reserve tank and the tank for coolant It states and is provided with transport pump in delivery tube.

By using above-mentioned technical proposal, coolant liquid after cooling is recycled in liquid reserve tank, will then be cooled down by transport pump Liquid is beaten into tank for coolant, then coolant liquid is input to nozzle by sparge pipe by tank for coolant, then by nozzle by coolant liquid It is sprayed at workpiece and drill bit, to achieve the effect that cycling and reutilization.

The utility model is further arranged to: the debris removal pipe is connected with the catheter by the first connector, institute The first connector is stated to include three the first fanning strips being fixedly installed on the catheter and be fixedly installed on the debris removal The first annular sliding rail of first fanning strip sliding is managed close to described catheter one end and supplied, is opened on the first annular sliding rail If there are three the first scallop holes for the first fanning strip grafting；The one end of the debris removal pipe far from the catheter with it is described Cooling tube is connected by the second connector, and second connector includes three the second fans being fixedly installed on the debris removal pipe Shape piece and be fixedly installed on the cooling tube close to debris removal pipe one end and for second fanning strip sliding the second ring Shape sliding rail, opens up that there are three the second scallop holes for the second fanning strip grafting in second endless glide.

By using above-mentioned technical proposal, when absorption, by rotating catheter, drives there are many when bushel iron bits in debris removal pipe The rotation of first fanning strip, when the first fanning strip is aligned with the first scallop hole, the first fanning strip is extracted out of first scallop hole, So that catheter and debris removal pipe disengage；Then debris removal pipe is rotated, the rotation of the second fanning strip is driven, when the second fanning strip and the When two scallop holes are aligned, the second fanning strip is extracted out of second scallop hole, so that debris removal pipe and cooling tube disengage, then The convenient bushel iron bits in debris removal pipe clean, and structure is simple.

The utility model is further arranged to: first positioning hole, second fan are offered in second endless glide Shape on piece offers second location hole, is threaded with positioning bolt in the first positioning hole, the positioning bolt with it is described Second location hole is threadedly coupled.

The second fanning strip is plugged on when the second fanning strip is directed at the second scallop hole by using above-mentioned technical proposal In second scallop hole, debris removal pipe is then rotated, drives the second fanning strip to rotate in the second circular orbit, so that first positioning hole With second location hole at that time, positioning bolt is screwed into first positioning hole and second location hole, to prevent debris removal pipe unexpected It rotates and is disengaged with cooling tube.

The utility model is further arranged to: there are three shape is identical with second fanning strip for setting on the strainer Third fanning strip offers third location hole, the positioning bolt and the third location hole screw thread on the third fanning strip Connection.

By using above-mentioned technical proposal, by turning positioning bolt, so that positioning bolt is successively from second location hole, Back-out in three location holes and first positioning hole, then by rotation debris removal pipe, so that debris removal pipe is removed from cooling tube, then Strainer is rotated, drives third fanning strip to rotate in the second circular orbit, so that third fanning strip is aligned with the second scallop hole, so Strainer is extracted from the second scallop hole afterwards, thus the sundries on strainer easy to clean.

In conclusion the advantageous effects of the utility model are as follows:

1, by setting diversion trench, catheter and liquid reserve tank, the coolant liquid overflowed on pedestal is recycled, is avoided The subsequent processing to coolant liquid, reduces the pollution of environment；

2, by setting debris removal pipe and strainer, the processing of bushel iron bits and other impurities is carried out to the coolant liquid being collected into, Then the coolant liquid after absorption heat is cooled down again, coolant liquid is finally turned into coolant liquid to tank for coolant by transport pump It is interior, to achieve the effect that coolant liquid recycles, economize on resources, reusing of energy source.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that a kind of coolant liquid recyclable device of drilling machine of the utility model is mounted on drilling machine；

Fig. 2 is the perspective view of the explosion of coolant liquid recyclable device；

Fig. 3 is location A partial enlarged view in Fig. 2, for indicating the structure of the first connector；

Fig. 4 is debris removal pipe cross-sectional view, for indicating magnetospheric structure；

Fig. 5 is B location partial enlarged view in Fig. 2, for indicating the structure of the second connector；

Fig. 6 is cooling tube shaft section schematic diagram, for indicating the structure of cooling layer.

Appended drawing reference: 1, nozzle；2, sparge pipe；3, tank for coolant；4, bracket；5, pedestal；6, drill bit；7, workbench；8, First connector；81, the first fanning strip；82, first annular sliding rail；9, the second connector；91, the second fanning strip；92, the second ring Shape sliding rail；10, diversion trench；11, catheter；12, debris removal pipe；13, the first scallop hole；14, magnetosphere；15, cooling tube；16, Two scallop holes；17, strainer；18, third fanning strip；19, first positioning hole；20, second location hole；21, third location hole；22, Positioning bolt；23, cooling layer；24, water pump；25, sink；26, liquid reserve tank；27, delivery tube；28, transport pump.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

It referring to Fig.1, is a kind of coolant liquid recyclable device of drilling machine disclosed by the utility model, including nozzle 1, sparge pipe 2 And tank for coolant 3.One side of drilling machine is provided with bracket 4, and tank for coolant 3 is placed on bracket 4, and the height of bracket 4, which is higher than, bores The height of bed top base 5.Nozzle 1 is arranged on pedestal 5, and one end of nozzle 1 is towards the drill bit 6 on pedestal 5, the other end with Tank for coolant 3 is connected to, and the coolant liquid in tank for coolant 3 is affected by gravity, and is flow at nozzle 1 along sparge pipe 2, then by spraying Mouth 1 is sprayed at drill bit 6.On the table 7, the surrounding of workbench 7 is fixedly connected with ring for one end installation of the pedestal 5 far from drill bit 6 The diversion trench 10 of shape.

Referring to Fig. 2 and Fig. 3, diversion trench 10 is communicated with catheter 11 far from the side of pedestal 5, and catheter 11 is far from diversion trench 10 one end is connected with debris removal pipe 12 by the first connector 8.First connector 8 includes the first fanning strip 81 and first annular cunning Rail 82, the first fanning strip 81 have three pieces, are welded on catheter 11 at equal intervals respectively on the side surface of 12 end of debris removal pipe. First annular sliding rail 82 is welded on debris removal pipe 12 on the side surface of 11 end of catheter, and 82 direction of first annular sliding rail Opened up on the outer wall of catheter 11 there are three the first scallop hole 13 for working in coordination with the first fanning strip 81, the first scallop hole 13 with First annular sliding rail 82 is connected to.It is fixed between first fanning strip 81 and first annular sliding rail 82 by bolt thread.

Referring to Fig. 4, magnetosphere 14 is bonded with by anaerobic adhesive in the side wall of debris removal pipe 12, magnetosphere 14 uses neodymium-iron-boron Iron.

Referring to Fig. 5, the one end of debris removal pipe 12 far from catheter 11 is connected with cooling tube 15 by the second connector 9, wherein Second connector 9 includes the second fanning strip 91 and the second endless glide 92, and the second fanning strip 91 has three pieces, respectively weldering at equal intervals It connects in debris removal pipe 12 on the side surface of 15 end of cooling tube.Second endless glide 92 is welded on cooling tube 15 close to debris removal pipe On the side surface of 12 ends, and the second endless glide 92 towards open up on the outer wall of debris removal pipe 12 there are three with the second fanning strip 91 the second scallop holes 16 worked in coordination, the second scallop hole 16 are connected to the second endless glide 92.Filter is provided in cooling tube 15 Net 17, the side of strainer 17 are welded with shape third fanning strip 18 identical with the second fanning strip 91, and third fanning strip 18 has three It is a, it is distributed at equal intervals on the side surface of strainer 17 respectively.Third fanning strip 18 is plugged in the second scallop hole 16；With filter The rotation of net 17 drives third fanning strip 18 to rotate in the second endless glide 92.Second endless glide 92 towards debris removal pipe 12 Side wall on offer first positioning hole 19, the second fanning strip 91 offers second location hole 20, opens up on third fanning strip 18 There is third location hole 21, positioning bolt 22 is threaded in first positioning hole 19, passes through the second fanning strip 91 of rotation and the Three fanning strips 18, so that second location hole 20 and third location hole 21 and the central axis of first positioning hole 19 are straight in same On line, connect positioning bolt 22 with first positioning hole 19, second location hole 20 and 21 screw thread of third location hole simultaneously It connects, so that strainer 17 is fixed in cooling tube 15.

Referring to Fig. 2 and Fig. 6, cooling layer 23 is provided in the side wall of cooling tube 15, cooling layer 23 is water cooling tube.Water cooling tube is embedding It is located in 15 side wall of cooling tube, and water cooling tube is spiraled setting centered on the central axis of cooling tube 15.Ground is placed with water pump 24 and sink 25, one end of water pump 24 be connected to external water source, the other end is connected to water cooling tube close to the end of debris removal pipe 12.Water The one end of cold pipe far from water pump 24 is connected to sink 25.

Referring to Fig.1, cooling tube 15 is connected with liquid reserve tank 26 far from the threaded one end of debris removal pipe 12, and liquid reserve tank 26 is for storing Coolant liquid after the recovery.The side of liquid reserve tank 26 is communicated with delivery tube 27, delivery tube 27 one end and cooling far from liquid reserve tank 26 Liquid case 3 is connected to, and the transport pump 28 turned in the coolant liquid in liquid reserve tank 26 to tank for coolant 3 is provided in delivery tube 27.

Implementation principle:

When drilling machine starts to drill to workpiece, nozzle 1 sprays coolant liquid towards drill bit 6, and coolant liquid flow to pedestal 5, connects Flow on workbench 7 by pedestal 5, then flow in diversion trench 10 by workbench 7, then flow to catheter 11 from diversion trench 10 In, then absorbing has the coolant liquid of heat to flow in debris removal pipe 12 along catheter 11, cooling during flowing through debris removal pipe 12 Bushel iron bits in liquid are adsorbed on the inner wall of debris removal pipe 12 by the magnetosphere 14 in 12 side wall of debris removal pipe.Coolant liquid is from debris removal pipe 12 It is entered to after flowing through in cooling tube 15, opens water pump 24 at this time, water pump 24 passes to cold water in water cooling tube, and cold water finally flow to water In slot 25.Absorption has the coolant liquid of heat to be cooled down in cooling tube 15, and heat is water cooled pipe absorption, and then coolant liquid is through filtering Net 17 filters some impurity in coolant liquid in strainer 17 towards the side of cooling tube 15, and last coolant liquid flow to liquid reserve tank 26 In.

Then the coolant liquid in liquid reserve tank 26 is beaten by transport pump 28 into tank for coolant 3, then is delivered to nozzle by sparge pipe 2 At 1, then it is sprayed at the work of drill bit 6.

When needing to clear up debris removal pipe 12, by rotating catheter 11, so that the first fanning strip 81 and the first fan Shape hole 13 is aligned, and then extracts the first fanning strip 81 from the first scallop hole 13；Then positioning bolt 22 is turned, so that positioning Bolt 22 and third fanning strip 18, the second fanning strip 91 and the second endless glide 92 disengage.Then debris removal pipe 12 is rotated, so that Second fanning strip 91 is aligned with the second scallop hole 16, is then extracted the second fanning strip 91 from the second scallop hole 16, is then rotated Strainer 17 drives third fanning strip 18 to rotate so that third fanning strip 18 is aligned with the second scallop hole 16, then by strainer 17 from It is taken out in cooling tube 15, it is on the one hand convenient that debris removal pipe 12 is cleaned, it is on the other hand convenient that strainer 17 is cleaned.

The above is only the preferred embodiment of the utility model, and the protection scope of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should refer to Out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (9)

1. the coolant liquid recyclable device of a kind of drilling machine, including the nozzle (1) being arranged on drilling machine and the spray being connected to nozzle (1) Liquid pipe (2), the side of drilling machine are provided with the tank for coolant (3) for providing coolant liquid, it is characterised in that: for placing drilling machine It is provided on workbench (7) diversion trench (10), the diversion trench (10) is communicated with liquid reserve tank (26) by catheter (11), described Diversion trench (10) surrounds the pedestal (5) of drilling machine.

2. a kind of coolant liquid recyclable device of drilling machine according to claim 1, it is characterised in that: on the catheter (11) It is provided with debris removal pipe (12), is provided with magnetosphere (14) on the debris removal pipe (12).

3. a kind of coolant liquid recyclable device of drilling machine according to claim 2, it is characterised in that: the debris removal pipe (12) with Strainer (17) are provided between the liquid reserve tank (26).

4. a kind of coolant liquid recyclable device of drilling machine according to claim 3, it is characterised in that: the strainer (17) and institute It states and is provided between liquid reserve tank (26) cooling tube (15), be provided with cooling layer (23) in the side wall of the cooling tube (15).

5. a kind of coolant liquid recyclable device of drilling machine according to claim 4, it is characterised in that: the cooling layer (23) is The water cooling tube being embedded in the cooling tube (15) side wall, workbench (7) side is provided with water pump (24) and sink (25), described Water cooling tube is spiraled distribution centered on the central axis of the cooling tube (15), one end of the water cooling tube and the water pump (24) Connection, the other end are connected to the sink (25).

6. a kind of coolant liquid recyclable device of drilling machine according to claim 5, it is characterised in that: the liquid reserve tank (26) with It is communicated with delivery tube (27) between the tank for coolant (3), and is provided with transport pump (28) in the delivery tube (27).

7. a kind of coolant liquid recyclable device of drilling machine according to claim 4, it is characterised in that: the debris removal pipe (12) with The catheter (11) is connected by the first connector (8), and first connector (8) is fixedly installed on described including three The first fanning strip (81) on catheter (11) and the debris removal pipe (12) is fixedly installed on close to the catheter (11) one The first annular sliding rail (82) of first fanning strip (81) sliding is held and supplied, offers three on the first annular sliding rail (82) A the first scallop hole (13) for the first fanning strip (81) grafting；The debris removal pipe (12) is far from the catheter (11) One end is connect with the cooling tube (15) by the second connector (9), and second connector (9) includes three and is fixedly installed on The second fanning strip (91) on the debris removal pipe (12) and the cooling tube (15) are fixedly installed on close to described debris removal pipe (12) it one end and is opened for the second endless glide (92) of second fanning strip (91) sliding, on second endless glide (92) If there are three the second scallop holes (16) for the second fanning strip (91) grafting.

8. a kind of coolant liquid recyclable device of drilling machine according to claim 7, it is characterised in that: second endless glide (92) it offers first positioning hole (19), is offered second location hole (20) on second fanning strip (91), described first on It is threaded on location hole (19) positioning bolt (22), the positioning bolt (22) and the second location hole (20) screw thread connect It connects.

9. a kind of coolant liquid recyclable device of drilling machine according to claim 8, it is characterised in that: set on the strainer (17) It sets there are three shape and the identical third fanning strip (18) of second fanning strip (91), is opened up on the third fanning strip (18) Have third location hole (21), the positioning bolt (22) is threadedly coupled with the third location hole (21).