CN202377866U - Inverted lathe cooling device - Google Patents
Inverted lathe cooling device Download PDFInfo
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- CN202377866U CN202377866U CN2011205507194U CN201120550719U CN202377866U CN 202377866 U CN202377866 U CN 202377866U CN 2011205507194 U CN2011205507194 U CN 2011205507194U CN 201120550719 U CN201120550719 U CN 201120550719U CN 202377866 U CN202377866 U CN 202377866U
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- lathe bed
- passing parts
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Abstract
The utility model discloses an inverted lathe cooling device, which comprises an inverted lathe and further comprises a water cooling device, wherein the water cooling device is characterized in that a water cooling loop is mainly formed by a water tank, a high-pressure water pump, a chip cleaner and a fluid pathway; cooling liquid is in the water cooling loop; a lathe body comprises a first fluid pathway; the outlet of the first fluid pathway is connected with a cutting and cooling device of a tool turret; the high-pressure water pump is connected with the water tank; the inlet of the first fluid pathway of the lathe body is connected with the high-pressure water pump; the outlet of the chip cleaner is connected with the water tank; and the cooling liquid discharged from the cutting and cooling device of the tool turret enters the inlet of the chip cleaner. The inverted lathe cooling device has the beneficial effects that the cooling liquid is used for cutting, cooling and washing workpieces after flowing through the lathe body to perform the multiple functions of the cooling liquid; the natural cooling of the water tank and the water cooler forced cooling cooperate for reasonable use of energy; and the cooling liquid is filtered in stages, and the purity degree of the cooling liquid is fully and reasonably controlled.
Description
Technical field
The utility model relates to the lathe cooling device, especially a kind of handstand car cooling device.
Background technology
The handstand turning machine adopts the main shaft grabbing workpiece to realize automatic loading/unloading, is mainly used in the automated job in enormous quantities of workpiece.Processing work is mainly the dish class and the axial workpiece of shape comparison rule, and application mainly concentrates on industries such as automobile industry, Hydraulic Elements, instrument manufacturing, Aero-Space, engineering machinery, and it can accomplish most of operation of part through time processing.
The cooling device of handstand turning machine is the important accessory of handstand turning machine; Its function is through balanced lathe thermal field; Eliminate the influence of thermal deformation, continuous firing precision and the high-quality workpiece crudy that guarantees the handstand turning machine had extremely important meaning lathe.
Modern Digit Control Machine Tool is eliminated the thermal deformation influence and is mainly contained 3 class methods: cooling, structure thermal compensation, cooling system naturally.Nature type of cooling utilization air radiating mode, no special device, install succinct, Maintenance free, but that shortcoming is radiating effect is poor, only is applicable to the little lathe that hangs down precision.Structure thermal compensation mode uses special construction to realize thermal distortion compensation, eliminates the influence of thermal deformation to machining accuracy, the method Maintenance free, and error compensation is effective, and is big but shortcoming is design difficulty, and structure is special restricted easily.Cooling system adopts cooling medium that the thermal source place is forced cooling, and cooling effect is very good, but shortcoming is more complicated, and cost is higher, needs regularly to safeguard.
Summary of the invention
To the problems referred to above that existing handstand turning machine cooling device exists, the utility model provides a kind of function and organization distribution characteristics to the handstand turning machine, the handstand car cooling device of the various cooling means pros and cons of balance.
The technical scheme that the utility model technical solution problem is adopted is:
A kind of handstand car cooling device comprises the handstand car, and said handstand car comprises lathe bed, main spindle box and workpiece transport platform;
Said main spindle box is connected with said lathe bed;
Said workpiece transport platform is connected with said lathe bed;
Said lathe bed comprises cutter tower and chip cleaner, and said cutter tower comprises cut cooling system;
Wherein, also comprise water cooling plant, said water cooling plant mainly forms water cooling labyrinth by water tank, high-pressure hydraulic pump, chip cleaner and fluid passage, in the said water cooling labyrinth cooling fluid is arranged;
Said lathe bed comprises the first fluid path, and the outlet of said first fluid path is connected with the cut cooling system of said cutter tower;
Said high-pressure hydraulic pump is connected with said water tank, and the inlet of the first fluid path of said lathe bed is connected with said high-pressure hydraulic pump;
The outlet of said chip cleaner is connected with said water tank, and the cooling fluid that the cut cooling system of said cutter tower is discharged gets into the inlet of said chip cleaner.
Above-mentioned handstand car cooling device wherein, also comprises first by-passing parts and water cooling unit, and said lathe bed comprises second fluid passage, and said workpiece transport platform comprises flusher and drainage component;
Said first by-passing parts comprises an inlet and two outlets; The inlet of said first by-passing parts is connected with said high-pressure hydraulic pump; First outlet of said first by-passing parts is connected with the inlet of the first fluid path of said lathe bed, and second outlet of said first by-passing parts is connected with the inlet of said water cooling unit;
The inlet of said second fluid passage is connected with the outlet of said water cooling unit, and the outlet of said second fluid passage is connected with the flusher of said workpiece transport platform;
The cooling fluid that the flusher of said workpiece transport platform is discharged gets into the inlet of said chip cleaner through the drainage component on the said workpiece transport platform.
Above-mentioned handstand car cooling device wherein, also comprises second by-passing parts, and said main spindle box comprises rack sleeve, and said rack sleeve comprises cooling line and drainage component;
Said second by-passing parts comprises an inlet and two outlets; The inlet of said second by-passing parts is connected with the outlet of said water cooling unit; First outlet of said second by-passing parts is connected with second fluid passage of said lathe bed, and the inlet that second of said second by-passing parts exports the cooling line in the rack sleeve with said main spindle box is connected;
The drainage component of cooling line outlet in said rack sleeve in the rack sleeve of said main spindle box is connected with the inlet of said chip cleaner.
Above-mentioned handstand car cooling device wherein, is provided with first filter between the inlet of said first by-passing parts and the said high-pressure hydraulic pump.
Above-mentioned handstand car cooling device wherein, is provided with second filter between the inlet of the cooling line in second outlet of said second by-passing parts and the rack sleeve of said main spindle box.
Above-mentioned handstand car cooling device is characterized in that said second fluid passage is the lathe bed cooling pipe.
Above-mentioned handstand car cooling device wherein, is provided with the 3rd filter in the said chip cleaner.
Above-mentioned handstand car cooling device, wherein, said the 3rd filter is a filter screen.
The beneficial effect of the utility model is:
1. cooling fluid is flowed through and is flowed to cutting cooling and workpiece flushing behind the lathe bed, performance cooling fluid multifunctionality;
2. water tank cools off and water cooling unit forces cooling to be used naturally, realizes rational use of energy;
3. the cooling fluid classified filtering is fully rationally controlled the cooling fluid degree of purity.
Description of drawings
Fig. 1 is the three-dimensional structure diagram of the utility model handstand car cooling device;
Fig. 2 is the syndeton sketch map of the utility model handstand car cooling device.
The specific embodiment
Below in conjunction with accompanying drawing and specific embodiment the utility model is described further, but not as the qualification of the utility model.
As shown in Figure 1, the utility model handstand car cooling device comprises the handstand car, and the handstand car comprises lathe bed 1, main spindle box 2 and workpiece transport platform 3; Main spindle box 2 is connected with lathe bed 1; Workpiece transport platform 3 is connected with lathe bed 1; Lathe bed 1 comprises cutter tower 11 and chip cleaner 12, and cutter tower 11 comprises cut cooling system; Also comprise water cooling plant, water cooling plant mainly forms water cooling labyrinth by water tank 31, high-pressure hydraulic pump 32, chip cleaner 12 and fluid passage, and cooling fluid is arranged in the water cooling labyrinth, and wherein fluid passage will be in hereinafter detailing by common formation of a plurality of parts.
Lathe bed 1 comprises the first fluid path, and the outlet of first fluid path is connected with the cut cooling system of cutter tower 11; High-pressure hydraulic pump 32 is connected with water tank 31, and the inlet of the first fluid path of lathe bed 1 is connected with high-pressure hydraulic pump 32; High-pressure hydraulic pump 32 is realized the cutting cooling with the cut cooling system that the cooling fluid in the water tank 31 pumps the first fluid path inflow cutter tower 11 of lathe bed 1.
The outlet of chip cleaner 12 is connected with water tank 31, and the chip that the cooling fluid that the cut cooling system of cutter tower 11 is discharged forms with cut flows into water tank 31 subsequently with the inlet that gets into chip cleaner 12.Be provided with filter in the chip cleaner 12 to realize that chip separates with cooling fluid, filter can be a filter screen.
Further, wherein, also comprise first by-passing parts and water cooling unit 33, lathe bed 1 comprises second fluid passage, and workpiece transport platform 3 comprises flusher and drainage component; First by-passing parts comprises an inlet and two outlets; The inlet of first by-passing parts is connected with high-pressure hydraulic pump 32; First outlet of first by-passing parts is connected with the inlet of the first fluid path of lathe bed 1, and second outlet of first by-passing parts is connected with the inlet of water cooling unit 33; The inlet of second fluid passage is connected with the outlet of water cooling unit 33, and the outlet of second fluid passage is connected with the flusher of workpiece transport platform 3; The flusher that a part in the cooling fluid that high-pressure hydraulic pump 32 is pumped through first by-passing parts carries a water cooling unit 33 cooling backs to deliver to workpiece transport platform 3 by second fluid passage is realized the workpiece flushing.The cooling fluid that the flusher of workpiece transport platform 3 is discharged gets into chip cleaner 12 through the drainage component on the workpiece transport platform 3 inlet is back to water tank 31 realization cooling circuits via chip cleaner 12.
On the technique scheme basis; Second fluid passage can be the lathe bed cooling pipe, and water cooling unit 33 cooled cooling fluids are at first cooled off lathe bed 1, realizes being used further to wash workpiece after the lathe bed 1 thermal source equilibrium; Make cooling fluid be fully utilized; While will cut cooling according to the characteristics of handstand turning machine and the lathe bed cooling separates, and uses cooling fluid to cool off naturally and the cooling of cooling fluid water cooling unit respectively, plays the effect of the saving energy.
Further, wherein, also comprise second by-passing parts, main spindle box 2 comprises rack sleeve 21, and rack sleeve 21 comprises cooling line and drainage component; Second by-passing parts comprises an inlet and two outlets; The inlet of second by-passing parts is connected with the outlet of water cooling unit 33; First outlet of second by-passing parts is connected with second fluid passage of lathe bed 1, and the inlet that second of second by-passing parts exports the cooling line in the rack sleeve 21 with main spindle box 2 is connected; The cooling line that makes part in the water cooling unit 33 cooled cooling fluids flow in the rack sleeve 21 of main spindle box 2 through second by-passing parts cools off main shaft.
The drainage component of cooling line outlet in rack sleeve 21 in the rack sleeve 21 of main spindle box 2 is connected with the inlet of chip cleaner 12, and the cooling fluid that the cooling line in the rack sleeve 21 is flowed out is back to water tank 31 via chip cleaner 12 and realizes cooling circuit.
Further, wherein, be provided with between the inlet of first by-passing parts and the high-pressure hydraulic pump 32 between the inlet of second outlet and the cooling line in the rack sleeve 21 of main spindle box 2 of first filter, 41, the second by-passing parts and be provided with second filter 42.According to the characteristics of handstand turning machine first filter 41 and second filter 42 are set and realize that the classified filtering of cooling fluids can fully reasonably control the cooling fluid degree of purity.
After the energising of handstand turning machine, the cooling fluid in the cooling line in the rack sleeve 21 circulates the utility model always in use; Just connect the cut cooling system of cutter tower 11 during cutwork; Machining the flusher of just connecting workpiece transport platform 3 when workpiece is seen off, can reasonably utilize cooling device according to the work characteristics of handstand turning machine like this.For adapting to above-mentioned control form; Can, fluid passage increase by the first break-make control device when being connected to the cooling line in the rack sleeve 21; Fluid passage increases by the second break-make control device when being connected to the cut cooling system of cutter tower 11; Fluid passage increases by the 3rd break-make control device when being connected to the flusher of workpiece transport platform 3, and the control end of the first break-make control device, the first break-make control device and the first break-make control device is connected with the controller of handstand turning machine realizes the one Synchronization Control.
The above is merely the utility model preferred embodiment; Be not thus the restriction the utility model claim; So the equivalent structure that all utilization the utility model specifications and diagramatic content have been done changes, and all is included in the protection domain of the utility model.
Claims (8)
1. a handstand car cooling device comprises the handstand car, and said handstand car comprises lathe bed, main spindle box and workpiece transport platform;
Said main spindle box is connected with said lathe bed;
Said workpiece transport platform is connected with said lathe bed;
Said lathe bed comprises cutter tower and chip cleaner, and said cutter tower comprises cut cooling system;
It is characterized in that also comprise water cooling plant, said water cooling plant mainly forms water cooling labyrinth by water tank, high-pressure hydraulic pump, chip cleaner and fluid passage, in the said water cooling labyrinth cooling fluid is arranged;
Said lathe bed comprises the first fluid path, and the outlet of said first fluid path is connected with the cut cooling system of said cutter tower;
Said high-pressure hydraulic pump is connected with said water tank, and the inlet of the first fluid path of said lathe bed is connected with said high-pressure hydraulic pump;
The outlet of said chip cleaner is connected with said water tank, and the cooling fluid that the cut cooling system of said cutter tower is discharged gets into the inlet of said chip cleaner.
2. the car cooling device that stands upside down according to claim 1 is characterized in that also comprise first by-passing parts and water cooling unit, said lathe bed comprises second fluid passage, and said workpiece transport platform comprises flusher and drainage component;
Said first by-passing parts comprises an inlet and two outlets; The inlet of said first by-passing parts is connected with said high-pressure hydraulic pump; First outlet of said first by-passing parts is connected with the inlet of the first fluid path of said lathe bed, and second outlet of said first by-passing parts is connected with the inlet of said water cooling unit;
The inlet of said second fluid passage is connected with the outlet of said water cooling unit, and the outlet of said second fluid passage is connected with the flusher of said workpiece transport platform;
The cooling fluid that the flusher of said workpiece transport platform is discharged gets into the inlet of said chip cleaner through the drainage component on the said workpiece transport platform.
3. like the said handstand car of claim 2 cooling device, it is characterized in that also comprise second by-passing parts, said main spindle box comprises rack sleeve, said rack sleeve comprises cooling line and drainage component;
Said second by-passing parts comprises an inlet and two outlets; The inlet of said second by-passing parts is connected with the outlet of said water cooling unit; First outlet of said second by-passing parts is connected with second fluid passage of said lathe bed, and the inlet that second of said second by-passing parts exports the cooling line in the rack sleeve with said main spindle box is connected;
The drainage component of cooling line outlet in said rack sleeve in the rack sleeve of said main spindle box is connected with the inlet of said chip cleaner.
4. like the said handstand car of claim 2 cooling device, it is characterized in that, be provided with first filter between the inlet of said first by-passing parts and the said high-pressure hydraulic pump.
5. like the said handstand car of claim 3 cooling device, it is characterized in that, be provided with second filter between the inlet of the cooling line in second outlet of said second by-passing parts and the rack sleeve of said main spindle box.
6. like the said handstand car of claim 3 cooling device, it is characterized in that said second fluid passage is the lathe bed cooling pipe.
7. like arbitrary described handstand car cooling device among the claim 1-6, it is characterized in that, be provided with the 3rd filter in the said chip cleaner.
8. like the said handstand car of claim 7 cooling device, it is characterized in that said the 3rd filter is a filter screen.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011205507194U CN202377866U (en) | 2011-12-26 | 2011-12-26 | Inverted lathe cooling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011205507194U CN202377866U (en) | 2011-12-26 | 2011-12-26 | Inverted lathe cooling device |
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CN202377866U true CN202377866U (en) | 2012-08-15 |
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CN2011205507194U Expired - Fee Related CN202377866U (en) | 2011-12-26 | 2011-12-26 | Inverted lathe cooling device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108381293A (en) * | 2018-05-17 | 2018-08-10 | 葛云艳 | A kind of lathe that main-shaft spindle head can cool down automatically |
-
2011
- 2011-12-26 CN CN2011205507194U patent/CN202377866U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108381293A (en) * | 2018-05-17 | 2018-08-10 | 葛云艳 | A kind of lathe that main-shaft spindle head can cool down automatically |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C41 | Transfer of patent application or patent right or utility model | ||
TR01 | Transfer of patent right |
Effective date of registration: 20150922 Address after: 201400, Shanghai, Fengxian District, 19 Lang Road, No. 3 Patentee after: SHANGHAI BRANCH OF SANY GROUP CO., LTD. Address before: 201306, No. two, 318 Avenue, Lingang Industrial Park, Shanghai, Fengxian District, A Patentee before: Seiki Co., Ltd. Shanghai Sany |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120815 Termination date: 20171226 |
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CF01 | Termination of patent right due to non-payment of annual fee |