CN208614382U - A kind of numerical control machining center product fabrication cycles cooling mechanism - Google Patents

Abstract

A kind of numerical control machining center product fabrication cycles cooling mechanism, the utility model relates to numerical control device technical field, the cooler bin is set in inside lathe, and the top of cooler bin is equipped with inlet, and the upper end of inlet is screwed with case lid；The inside of the cooler bin is divided into epicoele and cavity of resorption, is symmetrically arranged with ventilative web plate on the left and right sides wall of epicoele；It is described it is upper it is intracavitary be respectively fixed with No.1 strainer, No. two strainers from top to bottom, No.1 strainer, No. two strainers mesh aperture be arranged from large to small；Leakage mouth is offered on the epicoele bottom plate；The downside of the cavity of resorption is equipped with partition, the upside of partition is equipped with coolant liquid, the downside of partition is equipped with several cooling pieces, processing can be filtered to the coolant liquid of recycling, prevent water-pipe blockage, refrigeration processing can be carried out to coolant liquid, long-time converted products can also allow coolant liquid that can reach cooling required temperature always, more significant to the cooling effect of product, cooling efficiency is high, improves work efficiency.

Description

A kind of numerical control machining center product fabrication cycles cooling mechanism

Technical field

The utility model relates to numerical control device technical fields, and in particular to a kind of numerical control machining center product fabrication cycles Cooling mechanism.

Background technique

Numerical control machining center is a kind of automated machine tool equipped with program control system, is a kind of flexible, dynamical Automated machine tool represents the developing direction of modern machine control technology, is a kind of typical electromechanical integrated product, and numerical control adds Cooling system is in work center and its an important ring cools down as the secondary process in processing for part to be processed；It is cold But system can cool down workpiece, guarantee processing quality, and when carrying out short time processing to common parts, existing water is followed Ring cooling system can satisfy cooling requirement, still, if existing cooling system can hold for a long time when processing some parts Water-pipe blockage is easily caused, cooling required temperature is not achieved in coolant temperature after processing temperature is excessively high, and cooling efficiency is low, it would be highly desirable to change Into.

Utility model content

The purpose of this utility model is that in view of the drawbacks of the prior art and insufficient, provide that a kind of structure is simple, and design is closed Reason, numerical control machining center easy to use product fabrication cycles cooling mechanism, can be filtered place to the coolant liquid of recycling Reason, prevents water-pipe blockage, refrigeration processing can be carried out to coolant liquid, long-time converted products can also allow coolant liquid that can reach always The temperature required to cooling, more significant to the cooling effect of product, cooling efficiency is high, improves work efficiency.

In order to achieve the above purposes, the technical solution adopted by the utility model is:, and it includes cooler bin, No.1 strainer, No. two Strainer, ventilative web plate, cooling piece, radiator fan, No.1 centrifugal pump, outlet tube, No. two centrifugal pumps, inlet tubes；The cooling Case is set in inside lathe, and the top of cooler bin is equipped with inlet, and the upper end of inlet is screwed with case lid；The cooler bin it is interior Part is set as epicoele and cavity of resorption, is symmetrically arranged with ventilative web plate on the left and right sides wall of epicoele；It is described upper intracavitary to divide from top to bottom Be not fixed with No.1 strainer, No. two strainers, No.1 strainer, No. two strainers mesh aperture be arranged from large to small；The epicoele Leakage mouth is offered on bottom plate；The downside of the cavity of resorption is equipped with partition, and the upside of partition is equipped with coolant liquid, sets on the downside of partition There are several cooling pieces, cooling piece is started switch with lathe and connect, and the chill surface of cooling piece is bonded setting with partition, and cooling piece dissipates Hot face is bonded setting with cavity of resorption bottom；The cavity of resorption bottom offers air hole, and cavity of resorption bottom is fixed with radiator fan, heat dissipation Fan is started switch with lathe and is connect, and radiator fan is correspondingly arranged with air hole；Under described intracavitary side be equipped with No.1 from Heart pump, No.1 centrifugal pump is started switch with lathe to be connect, and the outlet end of No.1 centrifugal pump is connected with outlet tube, and outlet tube passes through cold But it is connect after case with the coolant liquid spray head of lathe；The top of the cooler bin is connected with inlet tube, and one end of inlet tube is set to Upper intracavitary, the other end of inlet tube is connect after passing through cooler bin with the outlet end of No. two centrifugal pumps, and No. two centrifugal pumps are opened with lathe Dynamic switch connection, No. two centrifugal pumps are set in the waste collection slot of lathe.

Further, exhaust fan, exhaust fan and lathe are symmetrically fixed on the left and right sides wall on the upside of the cooler bin Connection is started switch, the exhaust outlet of the exhaust fan of side and the ventilative web plate of the same side are correspondingly arranged, the exhaust fan of the other side Air outlet and the ventilative web plate of the same side are correspondingly arranged.

Further, the bottom of the epicoele is equipped with water pump, and water pump is started switch with lathe and connect, and water pump passes through water pipe It is connected with spray head, after spray head passes through the leakage mouth of epicoele bottom plate, is set to inside cavity of resorption.

Further, be fixed with motor at the top of the cooler bin, motor is started switch with lathe and is connect, motor it is defeated Outlet is connected with shaft, and shaft is set to upper intracavitary after cooling roof box, No.1 strainer and No. two strainers；The shaft The other end interference fit have agitating shaft, be set to down after agitating shaft hermetically passing epicoele bottom plate intracavitary.

Further, heat dissipation film is wrapped on the upside of the cooler bin and on the outer wall of inlet tube.

Further, thermal insulation cotton is wrapped on the downside of the cooler bin and on the outer wall of outlet tube.

After adopting the above structure, the utility model has the beneficial effect that a kind of numerical control machining center described in the utility model With product fabrication cycles cooling mechanism, processing can be filtered to the coolant liquid of recycling, prevent water-pipe blockage, it can be to cooling Liquid carries out refrigeration processing, and long-time converted products can also allow coolant liquid that can reach cooling required temperature always, to product Cooling effect is more significant, and cooling efficiency is high, improves work efficiency, and the utility model has structure simple, and setting rationally, makes The advantages that at low cost.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the cross-sectional view of cooler bin in the utility model.

Fig. 2 is the side view of cooler bin in the utility model.

Fig. 3 is the bottom schematic view of cooler bin in the utility model.

Fig. 4 is the schematic diagram of No. two centrifugal pump positions in the utility model.

Description of symbols:

Cooler bin 1, inlet 1-1, case lid 1-2, heat dissipation film 1-3, thermal insulation cotton 1-4, epicoele 2, leakage mouth 2-1, under Chamber 3, partition 3-1, air hole 3-2,4, No. two strainers 5 of No.1 strainer, ventilative web plate 6, exhaust fan 7, water pump 8, spray head 9, refrigeration Piece 10, radiator fan 11, No.1 centrifugal pump 12, outlet tube 13, motor 14, shaft 14-1,15, No. two centrifugal pumps 16 of agitating shaft, Inlet tube 17, coolant liquid 18.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings.

Referring to as shown in Figures 1 to 4, technological means used by present embodiment is as follows: it include cooler bin 1, 4, No. two strainers 5 of No.1 strainer, ventilative web plate 6, cooling piece 10, radiator fan 11, No.1 centrifugal pump 12, outlet tube 13, two Centrifugal pump 16, inlet tube 17；The cooler bin 1 is set in inside lathe, and the top of cooler bin 1, which is integrally formed forging, inlet The upper end of 1-1, inlet 1-1 are screwed with case lid 1-2 by screw thread, can add in cooler bin 1 from inlet 1-1 new cold But liquid 18；The inside of the cooler bin 1 is divided into epicoele 2 and cavity of resorption 3 by partition, and partition is integrally formed in cooler bin 1 Inside, it is symmetrical on the left and right sides wall of epicoele 2 and integrally formed with ventilative web plate 6, it can be by the hot gas of coolant liquid 18 from gas-permeable nets Plate 6 distributes；It is respectively welded from top to bottom in the epicoele 2 and is fixed with 4, No. two strainers 5 of No.1 strainer, No.1 strainer 4, The mesh aperture of No. two strainers 5 is arranged from large to small, contaminant filter in recycling coolant liquid 18 can be fallen；2 bottom of epicoele Integrally formed with leakage mouth 2-1 on plate, filtered coolant liquid 18 can flow in cavity of resorption 3 from leakage mouth 2-1, in drip process In can also radiate；The downside of the cavity of resorption 3 is equipped with coolant liquid 18 integrally formed with partition 3-1, the upside of partition 3-1, every The downside of plate 3-1 is equipped with nine cooling pieces 10, and cooling piece 10 is TEC1-12706 type cooling piece, and the connecting line of cooling piece 10 passes through It starts switch and connect with lathe after the bottom plate of cooler bin 1, the chill surface of cooling piece 10 is bonded setting with partition 3-1, can be to cold But liquid 18 freezes, and so that coolant liquid 18 is reached cooling required temperature, the radiating surface of cooling piece 10 is bonded with 3 bottom of cavity of resorption to be set It sets；3 bottom of cavity of resorption is fixed with radiator fan 11, radiator fan integrally formed with air hole 3-2,3 bottom screw of cavity of resorption 11 start switch with lathe and connect, and radiator fan 11 is correspondingly arranged with air hole 3-2, and faster the heat of cooling piece 10 can be discharged It goes；Side in the cavity of resorption 3 is equipped with No.1 centrifugal pump 12, and No.1 centrifugal pump 12 is COD2-30T type centrifugal pump, No.1 from After the connecting line of heart pump 12 passes through 1 side wall of cooler bin along outlet tube 13, starts switch and connect with lathe, No.1 centrifugal pump 12 Outlet end is connected with outlet tube 13, filters coolant liquid 18 after cooling and handles from the cooling that outlet tube 13 goes out to carry out to product, Outlet tube 13 is connect after passing through cooler bin 1 with the coolant liquid spray head of lathe；The top of the cooler bin 1 is connected with inlet tube 17, one end of inlet tube 17 is set in epicoele 2, and the other end of inlet tube 17 passes through to go out with No. two centrifugal pumps 16 after cooler bin 1 The connection of mouth end, No. two centrifugal pumps 16 are COD2-30T type centrifugal pump, and the connecting line of No. two centrifugal pumps 16 is passed through along inlet tube 13 It after the side wall of waste collection slot, starts switch and connect with lathe, No. two centrifugal pumps 16 are set in the waste collection slot of lathe, will be returned The coolant liquid 18 of receipts is extracted into inlet tube 17 from waste collection slot, is then flowed into epicoele 2 and is filtered.

Further, symmetrical and screw is fixed with exhaust fan 7, air draft on the left and right sides wall of 1 upside of cooler bin Fan 7 is 12038BNL type exhaust fan, and exhaust fan 7 is started switch with lathe to be connect, the exhaust outlet of the exhaust fan 7 of side and the same side Ventilative web plate 6 be correspondingly arranged, the air outlet of the exhaust fan 7 of the other side and the ventilative web plate 6 of the same side are correspondingly arranged, Ke Yijia Air circulation in fast epicoele 2, improves heat dissipation effect.

Further, the bottom of the epicoele 2 is equipped with water pump 8, the connecting line of water pump 8 pass through after 2 side wall of epicoele with machine Bed starts switch connection, and for water pump 8 by water pipe and using spray head 9 is threaded with, spray head 9 passes through the leakage mouth of 2 bottom plate of epicoele After 2-1, it is set to inside cavity of resorption 3, filtered coolant liquid 18 is extracted into water pipe by water pump 8, it is sprayed onto cavity of resorption 3 by spray head, Heat spreading function can be played during sprinkling.

Further, the top screw of the cooler bin 1 is fixed with motor 14, and motor 14 is JGB37-545 type motor, Motor 14 is started switch with lathe to be connect, and the output end of motor 14 is connected with shaft 14-1, and shaft 14-1 is pushed up across cooler bin 1 It is set in epicoele 2 after plate, No.1 strainer 4 and No. two strainers 5；The other end interference fit of the shaft 14-1 has agitating shaft 15, agitating shaft 15 is set in cavity of resorption 3 after passing through 2 bottom plate of sealing ring hermetically passing epicoele, and agitating shaft 15 can mix in cavity of resorption 3 Coolant liquid 18 can also radiate so that the temperature of 18 upper and lower level of coolant liquid is consistent in whipping process.

Further, it is wrapped with heat dissipation film 1-3 on the outer wall of 1 upside of cooler bin and inlet tube 17, it can be more The heat carried in coolant liquid 18 is distributed fastly.

Further, it is wrapped with thermal insulation cotton 1-4 on the outer wall of 1 downside of cooler bin and outlet tube 13, Insulation processing can be carried out to the coolant liquid 18 cooled down, better cooling effect can be played to product.

The working principle of this specific embodiment: being: lathe starts switch, exhaust fan 7, water pump 8, cooling piece 10, radiation air Fan 11, No.1 centrifugal pump 12, two an electrical circuit is connected between centrifugal pump 16, motor 14；Start lathe switch, No.1 from Heart pump 12, which is understood, be sent to machine tool coolant spray head for the coolant liquid 18 in cavity of resorption 3, cool down to product, and No. two centrifugal pumps 16 can incite somebody to action Coolant liquid 18 in waste collection slot is extracted into inlet tube 17, is flowed into epicoele 2 through inlet tube 17, through No.1 filter screen 4, two Number filter screen 5 filters, and during the filtration process, the exhaust fan 7 of two sides can play the role of accelerating air circulation, plays heat spreading function； Filtered coolant liquid 18 is sent to spray head 9 by water pump 8, is sprayed onto cavity of resorption 3 by spray head 9, and electronic 14 drive shaft 14-1, shaft 14-1 drives agitating shaft 15, the coolant liquid 18 that lower layer freezes and the coolant liquid 18 that upside is not freezed can be mixed, then by No.1 Centrifugal pump 12 is sent to machine tool coolant spray head, forms a coolant liquid cycle refrigeration system.

The technological merit of present embodiment are as follows: a kind of numerical control machining center that this specific implementation is proposed is added with product Work circulation temperature lowering mechanism can be filtered processing to the coolant liquid of recycling, prevent water-pipe blockage, can be to coolant liquid system Cold treatment, long-time converted products can also allow coolant liquid that can reach cooling required temperature always, to the cooling effect of product The advantages that more significant, cooling efficiency is high, improves work efficiency, and has structure simple, and setting is reasonable, low manufacture cost.

The above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, those of ordinary skill in the art couple The other modifications or equivalent replacement that the technical solution of the utility model is made, without departing from technical solutions of the utility model Spirit and scope should all cover in the scope of the claims of the utility model.

Claims (6)

1. a kind of numerical control machining center product fabrication cycles cooling mechanism, it is characterised in that: it includes cooler bin (1), No.1 Strainer (4), No. two strainers (5), ventilative web plate (6), cooling piece (10), radiator fan (11), No.1 centrifugal pump (12), outlet tube (13), No. two centrifugal pumps (16), inlet tube (17)；The cooler bin (1) is set in inside lathe, and cooler bin is set at the top of (1) Have inlet (1-1), the upper end of inlet (1-1) is screwed with case lid (1-2)；The inside of the cooler bin (1) is divided into Chamber (2) and cavity of resorption (3) are symmetrically arranged with ventilative web plate (6) on the left and right sides wall of epicoele (2)；In the epicoele (2) from up to Under be respectively fixed with No.1 strainer (4), No. two strainers (5), No.1 strainer (4), No. two strainers (5) mesh aperture from large to small Setting；Leakage mouth (2-1) is offered on described epicoele (2) bottom plate；The downside of the cavity of resorption (3) is equipped with partition (3-1), every The upside of plate (3-1) is equipped with coolant liquid (18), and the downside of partition (3-1) is equipped with several cooling pieces (10), cooling piece (10) and machine Bed starts switch connection, and the chill surface of cooling piece (10) is bonded setting, the radiating surface and cavity of resorption of cooling piece (10) with partition (3-1) (3) bottom fitting setting；Described cavity of resorption (3) bottom offers air hole (3-2), and cavity of resorption (3) bottom is fixed with radiator fan (11), radiator fan (11) is started switch with lathe connect, and radiator fan (11) is correspondingly arranged with air hole (3-2)；Described Side in cavity of resorption (3) is equipped with No.1 centrifugal pump (12), and No.1 centrifugal pump (12) is started switch with lathe to be connect, No.1 centrifugal pump (12) outlet end is connected with outlet tube (13), and outlet tube (13) passes through cooler bin (1) and connect afterwards with the coolant liquid spray head of lathe； The top of the cooler bin (1) is connected with inlet tube (17), and one end of inlet tube (17) is set in epicoele (2), inlet tube (17) the other end passes through cooler bin (1) and connect afterwards with the outlet end of No. two centrifugal pumps (16), No. two centrifugal pumps (16) and lathe Connection is started switch, No. two centrifugal pumps (16) are set in the waste collection slot of lathe.

2. a kind of numerical control machining center according to claim 1 product fabrication cycles cooling mechanism, it is characterised in that: institute It is symmetrically fixed with exhaust fan (7) on the left and right sides wall on the upside of cooler bin (1) stated, exhaust fan (7) and lathe start switch company It connects, the exhaust outlet of the exhaust fan (7) of side and the ventilative web plate (6) of the same side are correspondingly arranged, and the exhaust fan (7) of the other side goes out The ventilative web plate (6) of air port and the same side is correspondingly arranged.

3. a kind of numerical control machining center according to claim 1 product fabrication cycles cooling mechanism, it is characterised in that: institute The bottom for the epicoele (2) stated is equipped with water pump (8), and water pump (8) is started switch with lathe to be connect, and water pump (8) is connected with by water pipe After spray head (9) passes through the leakage mouth (2-1) of epicoele (2) bottom plate, it is internal to be set to cavity of resorption (3) for spray head (9).

4. a kind of numerical control machining center according to claim 1 product fabrication cycles cooling mechanism, it is characterised in that: institute It is fixed with motor (14) at the top of the cooler bin (1) stated, motor (14) is started switch with lathe to be connect, the output end of motor (14) It is connected with shaft (14-1), shaft (14-1) passes through cooler bin (1) top plate, No.1 strainer (4) and No. two strainers (5) and is set to afterwards In epicoele (2)；The other end interference fit of the shaft (14-1) has agitating shaft (15), agitating shaft (15) hermetically passing epicoele (2) it is set in cavity of resorption (3) after bottom plate.

5. a kind of numerical control machining center according to claim 1 product fabrication cycles cooling mechanism, it is characterised in that: institute Heat dissipation film (1-3) is wrapped on the upside of the cooler bin (1) stated and on the outer wall of inlet tube (17).

6. a kind of numerical control machining center according to claim 1 product fabrication cycles cooling mechanism, it is characterised in that: institute Thermal insulation cotton (1-4) is wrapped on the downside of the cooler bin (1) stated and on the outer wall of outlet tube (13).