CN104647130A - Cycle cooling machine tool cooling tank - Google Patents

Abstract

The invention discloses a cycle cooling machine tool cooling tank which comprises a filter tank, a coolant tank and a suction preparation chamber. The coolant tank is arranged below the filter tank and communicated with the filter tank through a mesh structure, the suction preparation chamber is positioned on one side of the coolant tank, a first filter screen is arranged between the suction preparation chamber and the coolant tank, a flow guide plate is connected below the mesh structure and close to the first filter screen, and the lower end of the flow guide plate is inclined towards one side far away from the first filter screen. The cycle cooling machine tool cooling tank can guide chippings in coolants to be settled at the bottom of the coolant tank, the filter screen cannot be blocked, and most of the coolants enter cooling cycle.

Description

A kind of circulating cooling type lathe cooler bin

Technical field

The present invention relates to a kind of cooler bin, particularly relate to a kind of circulating cooling type lathe cooler bin.

Background technology

At present, the cooler bin structure of market being arranged cutter class lathe is the simple structure not with chip removal mechanism.As shown in Figure 1, cooling fluid and chip fall in Rose Box 1 along the natural back flow funnel 2 of lathe, are mesh-structured 3 bottom Rose Box 1.Be tank for coolant 4 below Rose Box 1, be provided with standby suction-chamber 6 in one end of tank for coolant 4, and be provided with the cooling liquid outlet 7 be connected with delivery pump suction inlet.Theoretically, chip is stored in Rose Box 1, and cooling fluid flows in tank for coolant 4 along mesh-structured 3, through the first screen pack 5, flows into standby suction-chamber 6, with the suction by delivery pump, cooling fluid is sucked delivery pump, and delivers to lathe cooled region.

But in fact, the chip more than 80% and cooling fluid flow down from the side near standby suction-chamber 6.In addition, one of machining feature of row's cutter lathe is its chip is chip state.And mesh-structured 3 bottom Rose Box 1, be first will meet cooling fluid (comprising emulsion or cold oil) tank for coolant 4 can be flowed into smoothly, therefore can not the aperture of mesh do too little.Therefore, under the impact of cooling fluid, a large amount of chips, by mesh-structured 3 of Rose Box 1, enters in tank for coolant 4, and along with coolant flow, is deposited on the first screen pack 5 times in a large number, be even attracted on the first screen pack 5, cause occurring two problems:

One, in tank for coolant 4, liquid level meets designing requirement, but because the first screen pack 5 is blocked by the chip adsorbed, in standby suction-chamber 6, liquid level is too low, under the state that delivery pump normally runs, can not export cooling fluid.Often need machine operation personnel to cut out the chip on the first screen pack 5 with hand, lathe could recover normal and run.

Its two, cooling fluid flows down along side, after mesh-structured 3, directly to the first screen pack 5 diffluence, enters standby suction-chamber 6, is then transferred pump and siphons away.So just occurred the high-speed circulating phenomenon of a small amount of cooling fluid, and the effect of a large amount of cooling fluids is only maintain liquid level, unactual entering among cool cycles.Often there is the illusion of COOLANT TEMPERATURE.

Summary of the invention

The object of the invention is to overcome above-mentioned deficiency of the prior art, a kind of circulating cooling type lathe cooler bin is provided.This circulating cooling type lathe cooler bin can guide the chip in cooling fluid to be deposited in bottom tank for coolant, can not result in blockage to screen pack, makes most cooling fluid enter among cool cycles simultaneously.

For achieving the above object, the technical solution used in the present invention is: a kind of circulating cooling type lathe cooler bin, comprise Rose Box, tank for coolant and standby suction-chamber, described tank for coolant is arranged on below Rose Box, described tank for coolant is connected by mesh-structured with Rose Box, described standby suction-chamber is positioned at the side of tank for coolant, described for being provided with the first screen pack between suction-chamber and tank for coolant, it is characterized in that: described mesh-structured below is connected with deflector, described deflector is near the first screen pack, and the lower end of described deflector is to the lopsidedness away from the first screen pack.

Above-mentioned a kind of circulating cooling type lathe cooler bin, it is characterized in that: described mesh-structured to comprise the through-flow mesh-structured and overflow be obliquely installed relative to tank for coolant diapire mesh-structured, described overflow is mesh-structured between through-flow mesh-structured and standby suction-chamber, described through-flow mesh-structured upper end is connected with a madial wall of tank for coolant, the lower end mesh-structured with overflow, described through-flow mesh-structured lower end is connected, the mesh-structured upper end of described overflow is connected with another madial wall of tank for coolant, the mesh-structured gradient of described overflow is greater than through-flow mesh-structured gradient.

Above-mentioned a kind of circulating cooling type lathe cooler bin, is characterized in that: described first screen pack is provided with the second screen pack near the side of standby suction-chamber.

Above-mentioned a kind of circulating cooling type lathe cooler bin, is characterized in that: have gap between described first screen pack and the second screen pack.

Above-mentioned a kind of circulating cooling type lathe cooler bin, is characterized in that: described first screen pack is 60 order screen packs, and described second screen pack is 40 order screen packs.

Above-mentioned a kind of circulating cooling type lathe cooler bin, is characterized in that: have gap between described deflector and tank for coolant diapire.

The present invention compared with prior art has the following advantages:

1, structure of the present invention is simple, rationally novel in design, is easy to install.

2, the present invention is by arranging deflector, can effectively be guided to by the chip in cooling fluid and be deposited in bottom tank for coolant, avoid resulting in blockage to screen pack, and its structure is simple, and result of use is good.

3, the present invention is by be obliquely installed relative to tank for coolant diapire through-flow mesh-structured with overflow is mesh-structured, it effectively decreases the quantity that chip passes through, and reduce institute pass through detrital grain size, and pass through the mesh-structured design of overflow with through-flow mesh-structured blocked after for subsequent use.

4, the present invention is by the two-layer screen pack of design, enhances filter effect.

5, of the present invention to realize cost low, and result of use is good, is convenient to promote the use of.

In sum, structure of the present invention is simple, and rationally novel in design, functional reliability is high, and on the basis of cooling requirement meeting lathe continuous operation, reduce the maintenance times of cooler bin, reduce the maintenance frequency of coolant pump, effect extends the service life of coolant pump.Reduce the working strength of attendant.And then realize the design idea promoting machine tool utilization rate.

Below by drawings and Examples, technical scheme of the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of circulating cooling type lathe cooler bin in prior art.

Fig. 2 is structural representation of the present invention.

Description of reference numerals:

1-Rose Box; 2-natural back flow funnel; 3-mesh-structured;

3-1-through-flow mesh-structured; 3-2-overflow is mesh-structured; 4-tank for coolant;

5-the first screen pack; 6-standby suction-chamber; 7-cooling liquid outlet;

8-deflector; 9-the second screen pack; 10-lower margin roller.

Detailed description of the invention

A kind of circulating cooling type lathe cooler bin as shown in Figure 2, comprise Rose Box 1, tank for coolant 4 and standby suction-chamber 6, described tank for coolant 4 is arranged on below Rose Box 1, described tank for coolant 4 is connected by mesh-structured 3 with Rose Box 1, described standby suction-chamber 6 is positioned at the side of tank for coolant 4, described for being provided with the first screen pack 5 between suction-chamber 6 and tank for coolant 4, deflector 8 is connected with below described mesh-structured 3, described deflector 8 is near the first screen pack 5, and the lower end of described deflector 8 is to the lopsidedness away from the first screen pack 5.Between described deflector 8 and tank for coolant 4 diapire, there is gap.

In the present embodiment, the principle of contamination precipitation effect in liquid can be promoted according to prolongation liquid flow distance, a deflector 8 is set in tank for coolant 4, make to fall into cooling fluid in tank for coolant 4 and chip by Rose Box 1, directly can not flow to the first screen pack 5, but drop on the deflector 8 that is obliquely installed, flow to the direction away from the first screen pack 5, inclined-plane along deflector 8 flow to apart from behind position closer bottom tank for coolant 4, then turns around to flow to the first screen pack 5.So, not only forcing the cooling fluid away from the first screen pack 5 side to participate in cooling work, and make the major part of the chip be mixed in cooling fluid, being deposited in when turning around bottom tank for coolant 4.Only have a small amount of chip can flow to the first screen pack 5 with cooling fluid.

As shown in Figure 2, described mesh-structured 3 comprise the through-flow mesh-structured 3-1 and the mesh-structured 3-2 of overflow that are obliquely installed relative to tank for coolant 4 diapire, the mesh-structured 3-2 of described overflow is between through-flow mesh-structured 3-1 and standby suction-chamber 6, the described upper end of through-flow mesh-structured 3-1 is connected with a madial wall of tank for coolant 4, the lower end of described through-flow mesh-structured 3-1 is connected with the lower end of the mesh-structured 3-2 of overflow, the upper end of the mesh-structured 3-2 of described overflow is connected with another madial wall of tank for coolant 4, the gradient of the mesh-structured 3-2 of described overflow is greater than the gradient of through-flow mesh-structured 3-1.

In the present embodiment, the design of mesh size on described through-flow mesh-structured 3-1 is less than mesh size of the prior art, and it, meeting while cooling fluid passes through, reduces the quantity that chip passes through as far as possible, and reduce pass through detrital grain size.Mesh on the mesh-structured 3-2 of described overflow is overflow mesh.After chip blocks up the mesh on main through-flow mesh-structured 3-1, talus accumulation will be formed.The chip piled up gradually, can cause cooling fluid cannot enter tank for coolant 4, and now, most cooling fluid can overflow mesh on the mesh-structured 3-2 of overflow, flows in tank for coolant 4.Enter tank for coolant 4 owing to being through extraction effect, flooding process can form primary precipitation, effectively reduces the amount of debris entering tank for coolant 4.In this time, the mesh on through-flow mesh-structured 3-1 enters the cooling fluid of tank for coolant 4, only containing a small part of the total amount of the cooling fluid entered in tank for coolant 4.

As shown in Figure 2, described first screen pack 5 is provided with the second screen pack 9 near the side of standby suction-chamber 6.Between described first screen pack 5 and the second screen pack 9, there is gap.Described first screen pack 5 is 60 order screen packs, and described second screen pack 9 is 40 order screen packs.

In the present embodiment, by designing two-layer screen pack, and being intended to flow next distance between two-layer screen pack, defining cascade filtration structure from structure.First screen pack 5 still uses 60 order metallic sieves, and the second screen pack 9 applies 40 order metallic sieves.First screen pack 5 can flow to overwhelming majority's interception of the chip of the first screen pack 5 along with cooling fluid.In addition, the filter area of the first screen pack 5 is twices of the second screen pack 9, guarantees the flow of the cooling fluid by the first screen pack 5, can meet the functional requirement that standby suction-chamber 6 liquid level does not reduce.Second screen pack 9 is set to 40 eye mesh screens, ensures the liquid quality of the cooling fluid by the second screen pack 9, can meet the operating environment requirements of delivery pump.

Before using, first need to install delivery pump at assigned address, connect cooling fluid carrier pipe, then the first screen pack 5, second screen pack 9 and deflector 8 are first arranged on the position of specifying in tank for coolant 4, again Rose Box 1 is placed on above tank for coolant 4, pours into cooling fluid by regulation liquid level afterwards, then tank for coolant 4 is pushed cabinet leg by lower margin roller 10 entirety, connect coolant pipe and delivery pump power supply, just can employ.During use, cooling fluid and chip fall in Rose Box 1 along the natural back flow funnel 2 of lathe, after mesh-structured 3, guiding again through deflector 8 enters standby suction-chamber 6 by the first screen pack 5 and the second screen pack 9 successively, with the suction by delivery pump, cooling fluid is sucked delivery pump from cooling liquid outlet 7, and delivers to lathe cooled region.

The above; it is only preferred embodiment of the present invention; not the present invention is imposed any restrictions, every above embodiment is done according to the technology of the present invention essence any simple modification, change and equivalent structure transformation, all still belong in the protection domain of technical solution of the present invention.

Claims (6)

1. a circulating cooling type lathe cooler bin, comprise Rose Box (1), tank for coolant (4) and standby suction-chamber (6), described tank for coolant (4) is arranged on Rose Box (1) below, described tank for coolant (4) is connected by mesh-structured (3) with Rose Box (1), described standby suction-chamber (6) is positioned at the side of tank for coolant (4), described for being provided with the first screen pack (5) between suction-chamber (6) and tank for coolant (4), it is characterized in that: described mesh-structured (3) below is connected with deflector (8), described deflector (8) is near the first screen pack (5), and the lower end of described deflector (8) is to the lopsidedness away from the first screen pack (5).

2. a kind of circulating cooling type lathe cooler bin according to claim 1, it is characterized in that: described mesh-structured (3) comprise through-flow mesh-structured (3-1) and overflow mesh-structured (3-2) that are obliquely installed relative to tank for coolant (4) diapire, described overflow mesh-structured (3-2) is positioned between through-flow mesh-structured (3-1) and standby suction-chamber (6), the upper end of described through-flow mesh-structured (3-1) is connected with a madial wall of tank for coolant (4), the lower end of the lower end mesh-structured with overflow (3-2) of described through-flow mesh-structured (3-1) is connected, the upper end of described overflow mesh-structured (3-2) is connected with another madial wall of tank for coolant (4), the gradient of described overflow mesh-structured (3-2) is greater than the gradient of through-flow mesh-structured (3-1).

3. a kind of circulating cooling type lathe cooler bin according to claim 1, is characterized in that: described first screen pack (5) is provided with the second screen pack (9) near the side of standby suction-chamber (6).

4. a kind of circulating cooling type lathe cooler bin according to claim 3, is characterized in that: have gap between described first screen pack (5) and the second screen pack (9).

5. a kind of circulating cooling type lathe cooler bin according to claim 3, it is characterized in that: described first screen pack (5) is 60 order screen packs, described second screen pack (9) is 40 order screen packs.

6. a kind of circulating cooling type lathe cooler bin according to claim 1, is characterized in that: have gap between described deflector (8) and tank for coolant (4) diapire.