JPS6214388B2 - - Google Patents
Info
- Publication number
- JPS6214388B2 JPS6214388B2 JP23173182A JP23173182A JPS6214388B2 JP S6214388 B2 JPS6214388 B2 JP S6214388B2 JP 23173182 A JP23173182 A JP 23173182A JP 23173182 A JP23173182 A JP 23173182A JP S6214388 B2 JPS6214388 B2 JP S6214388B2
- Authority
- JP
- Japan
- Prior art keywords
- bearing
- heat
- hollow chamber
- communication pipe
- heat dissipation
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q11/00—Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
- B23Q11/12—Arrangements for cooling or lubricating parts of the machine
- B23Q11/126—Arrangements for cooling or lubricating parts of the machine for cooling only
- B23Q11/127—Arrangements for cooling or lubricating parts of the machine for cooling only for cooling motors or spindles
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Auxiliary Devices For Machine Tools (AREA)
- Mounting Of Bearings Or Others (AREA)
Description
【発明の詳細な説明】
この発明は例えば工作機械の複数の主軸等の軸
受部を冷却する多軸冷却装置に関するものであ
る。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a multi-shaft cooling device that cools bearing parts such as a plurality of main shafts of a machine tool, for example.
従来この種の装置としては第1図及び第2図に
示すものがあつた。これら各図において、1,1
1は工作機械の第1、第2の主軸装置であり、ス
パンPの間隔で配置されている。2,21は主
軸、3,31は軸受、4,41は軸受台、5,5
1はプーリ、6はベツドである。 Conventionally, there have been devices of this type as shown in FIGS. 1 and 2. In each of these figures, 1, 1
Reference numeral 1 denotes first and second spindle devices of the machine tool, which are arranged at an interval of span P. 2, 21 are main shafts, 3, 31 are bearings, 4, 41 are bearing stands, 5, 5
1 is a pulley and 6 is a bed.
次に動作について説明する。図示しない駆動用
電動機によりVベルトを介してプーリ5,51に
伝えられた回転力によつて主軸2,21を回転さ
せる。この時、主軸2,21と軸受台4,41と
の間に位置する軸受3,31は主軸2,21が円
滑に回転することを助ける目的をもつているが、
回転とともに軸受3,31は摩擦により発熱し温
度上昇する。軸受3,31に生じた熱量は軸受台
4,41に伝わり、ベツド6および周囲空気へ伝
熱して放熱する。この際に軸受台4,41は温度
上昇し、各部は熱膨脹による種々の熱変形・歪を
生じる。このため主軸2,21の位置が変動し、
被加工物を機械加工するときに加工精度が低下す
るという欠点があつた。さらに、相互間の主軸
2,21の位置の変動に差を生じると同時に複数
の加工を行なう際に相互の加工精度に差を生じる
という欠点があつた。 Next, the operation will be explained. The main shafts 2, 21 are rotated by the rotational force transmitted to the pulleys 5, 51 via the V-belt by a driving electric motor (not shown). At this time, the bearings 3, 31 located between the main shafts 2, 21 and the bearing stands 4, 41 have the purpose of helping the main shafts 2, 21 rotate smoothly.
As the bearings 3 and 31 rotate, they generate heat due to friction and their temperature increases. The amount of heat generated in the bearings 3, 31 is transmitted to the bearing stands 4, 41, and is transferred to the bed 6 and the surrounding air to radiate heat. At this time, the temperature of the bearing stands 4 and 41 increases, and various thermal deformations and strains occur in each part due to thermal expansion. For this reason, the positions of the main shafts 2 and 21 fluctuate,
There was a drawback that the machining accuracy decreased when machining the workpiece. Furthermore, there is a drawback that there is a difference in the fluctuation of the positions of the main shafts 2 and 21 between them, and at the same time, there is a difference in the machining accuracy when performing a plurality of machining operations.
この発明は上記のような従来のものの欠点を除
去するためになされたものであり、第1、第2の
主軸装置を有効に且つ平均的に冷却することがで
きる多軸冷却装置を提供することを目的としてい
る。 This invention was made in order to eliminate the drawbacks of the conventional ones as described above, and an object of the present invention is to provide a multi-shaft cooling device that can effectively and evenly cool the first and second main shaft devices. It is an object.
以下、この発明の一実施例を第3図及び第4図
に基づいて説明する。第3図は機能系統を示すブ
ロツク図、第4図は断面側面図であり、これら各
図において、7,71は軸受台4,41の内部に
形成された環状の中空室、8,81は放熱装置で
あり、冷却フアン9,91により冷却されてい
る。10は中空室7と放熱装置81とを連通する
と共に例えばベローズ等の伸縮可能なフレキシブ
ル部10aを有する第1の連通管、101は中空
室71と放熱装置8とを連通すると共に例えばベ
ローズ等の伸縮可能なフレキシブル101aを有
する第2の蒸気管、12は放熱装置8と第1の連
通管10とを連通する第3の連通管、121は放
熱装置81と第2の連通管101とを連通する第
4の連通管である。 An embodiment of the present invention will be described below with reference to FIGS. 3 and 4. FIG. 3 is a block diagram showing the functional system, and FIG. 4 is a cross-sectional side view. In each of these figures, 7 and 71 are annular hollow chambers formed inside the bearing stands 4 and 41, and 8 and 81 are annular hollow chambers formed inside the bearing stands 4 and 41. It is a heat dissipation device and is cooled by cooling fans 9 and 91. 10 is a first communication pipe that communicates between the hollow chamber 7 and the heat radiating device 81 and has a flexible part 10a that can be expanded and contracted, such as a bellows; 101 is a first communicating pipe that communicates between the hollow chamber 71 and the heat radiating device 8 and has a flexible part 10a such as a bellows. A second steam pipe having an expandable flexible member 101a, 12 a third communication pipe that communicates the heat radiator 8 and the first communication pipe 10, and 121 a third communication pipe that communicates the heat radiator 81 with the second communication pipe 101. This is the fourth communication pipe.
尚、中空室7,71および放熱装置8,81、
第1、第2の連通管10,101、第3、第4の
連通管12,121の内部を真空減圧後、アンモ
ニア、フロン等の作動液体がその内部に所定量封
入される。 In addition, the hollow chambers 7, 71 and the heat dissipation devices 8, 81,
After the insides of the first and second communication pipes 10 and 101 and the third and fourth communication pipes 12 and 121 are vacuum-reduced, a predetermined amount of a working liquid such as ammonia or chlorofluorocarbon is sealed therein.
次に動作について説明する。軸受台4,41で
受熱した軸受3,31の熱量は中空室7,71内
のフロン等の作動液体を加熱して気化させる際に
蒸発潜熱として奪われ、気化したフロン等の蒸気
は自身の蒸気圧を利用して第1の連通管10を経
て放熱装置81へ、第2の連通管101を経て放
熱装置8へそれぞれ移動し、冷却フアン9,91
により周囲空気により冷やされる。このとき、フ
ロン等の蒸気は凝縮して液体に戻るが、凝縮潜熱
を周囲空気に放出し、軸受3,31の熱量を周囲
空気へ放熱する。凝縮した作動液体は第3、第4
の連通管12,121から第1、第2の連通管1
0,101を経て重力を利用して軸受台4,41
の中空室7,71へ戻る。このような動作をくり
返し行なうことにより、軸受台4,41の熱量を
放熱装置81,8に熱輸送して効率よく冷却する
ようにしている。 Next, the operation will be explained. The heat of the bearings 3, 31 received by the bearing stands 4, 41 is taken away as latent heat of vaporization when the working liquid such as fluorocarbons in the hollow chambers 7, 71 is heated and vaporized, and the vapor of the vaporized fluorocarbons is The vapor pressure is used to move through the first communication pipe 10 to the heat radiator 81 and the second communication pipe 101 to the heat radiator 8, and the cooling fans 9, 91
cooled by the surrounding air. At this time, the vapor of fluorocarbon or the like is condensed and returned to liquid, but the latent heat of condensation is released to the surrounding air, and the amount of heat from the bearings 3 and 31 is radiated to the surrounding air. The condensed working liquid is in the third and fourth
from the communication pipes 12, 121 to the first and second communication pipes 1
Bearing stand 4,41 using gravity after passing through 0,101
Return to hollow chambers 7 and 71. By repeating such an operation, the amount of heat in the bearing stands 4, 41 is transported to the heat radiating devices 81, 8 and efficiently cooled.
ところで、軸受台4が他方の軸受台41に比べ
温度上昇(熱量)が大きくなると、軸受台4の中
空室7内の作動液体の蒸気化の際の蒸気量・蒸気
圧・蒸気温度が他方に比べ大きくなる。従つて、
より大きな蒸発潜熱を奪い軸受台4をより大きく
冷却し、軸受台4の温度上昇が他方の軸受台41
より大きくなるのを抑制するように働く。そし
て、軸受台4の中空室7内にて気化した温度の高
い蒸気は第1の連通管10を経て放熱装置81へ
移動し、加熱装置81にて凝縮した作動液体は放
熱装置8にて凝縮する作動液体に比べ温度が高
く、第4の連通管121から第2の連通管101
を経て軸受台41の中空室71に流入する。従つ
て、軸受台41においては作動液体の温度が高い
分だけ暖められ温度上昇が増大し、両軸受台4,
41の温度上昇差が小さく抑えられる。また、軸
受台41は軸受台4に比べ温度上昇が小さく、軸
受台41の中空室71内の作動液体は軸受台4の
中空室7内の作動液体に比べ気化する際の蒸気
量・蒸気圧・蒸気温度が低い。従つて、第2の連
通管101、放熱装置8、第3の連通管12から
第1の連通管10を経てより低い温度の作動液体
が流入する。その結果、軸受台4においては作動
液体の温度の低い分だけ冷やされ温度上昇が減少
し、両軸受台4,41の温度以上が小さく抑えら
れる。このような動作をくり返し行なうことによ
り、両軸受台4,41の何れか一方の発熱量・温
度上昇が増大しはじめると、両軸受台4,41の
温度上昇差を小さく抑えるように働き、両軸受台
4,41が平均的に有効に冷却される。従つて、
工作機械においては軸受部の熱変形・歪を最少限
に抑えることができ、加工精度を向上させること
ができる。 By the way, if the temperature rise (calorific value) of the bearing pedestal 4 is larger than that of the other bearing pedestal 41, the amount of vapor, vapor pressure, and vapor temperature during vaporization of the working liquid in the hollow chamber 7 of the bearing pedestal 4 will be higher than that of the other bearing pedestal 41. It becomes larger in comparison. Therefore,
A larger amount of latent heat of vaporization is taken away and the bearing pedestal 4 is cooled down to a greater extent, and the temperature rise of the bearing pedestal 4 is caused by the temperature rise of the other bearing pedestal 41.
It works to prevent it from getting bigger. The high temperature steam vaporized in the hollow chamber 7 of the bearing stand 4 moves to the heat radiator 81 via the first communication pipe 10, and the working liquid condensed in the heating device 81 is condensed in the heat radiator 8. The temperature of the working liquid is higher than that of the working liquid, and the temperature is higher than that of the working liquid, and the temperature is higher than that of the working liquid.
It flows into the hollow chamber 71 of the bearing stand 41 through the. Therefore, the bearing pedestal 41 is warmed by the higher temperature of the working fluid, increasing the temperature rise, and both bearing pedestals 4,
41 can be kept small. In addition, the temperature rise of the bearing pedestal 41 is smaller than that of the bearing pedestal 4, and the working liquid in the hollow chamber 71 of the bearing pedestal 41 has a vapor volume and vapor pressure when vaporized compared to the working liquid in the hollow chamber 7 of the bearing pedestal 4.・Steam temperature is low. Therefore, the lower temperature working liquid flows from the second communication pipe 101, the heat radiating device 8, and the third communication pipe 12 through the first communication pipe 10. As a result, the bearing pedestal 4 is cooled by the lower temperature of the working fluid, reducing the temperature rise, and suppressing the temperature higher than that of both the bearing pedestals 4 and 41 to a small level. By repeating such an operation, when the heat generation amount and temperature rise of either of the bearing stands 4, 41 starts to increase, it works to suppress the difference in temperature rise of both the bearing stands 4, 41 to a small value, The bearing stands 4, 41 are effectively cooled evenly. Therefore,
In machine tools, thermal deformation and distortion of bearings can be minimized, and machining accuracy can be improved.
また、主軸2と主軸21とのスパンPを第1、
第2の連通管10,101のフレキシブル部10
a,101aの伸縮範囲内で可変とすることがで
きる。 In addition, the span P between the main shaft 2 and the main shaft 21 is
Flexible portion 10 of second communication pipe 10, 101
It can be made variable within the expansion/contraction range of a and 101a.
尚、上記実施例では冷却フアン9,91を用い
た場合について述べたが、冷却フアン9,91を
用いず自然風冷してもよく、あるいは冷却源とし
て冷却風以外の冷却水・油などを用いても同様な
効果が得られる。 Although the above embodiment describes the case where the cooling fans 9, 91 are used, natural air cooling may be used without using the cooling fans 9, 91, or cooling water, oil, etc. other than the cooling air may be used as the cooling source. A similar effect can be obtained by using
また、上記実施例ではフレキシブル部10a,
101aをベローズで構成する場合について述べ
たが、ベローズ以外で伸縮可能なフレキシブル部
を構成するようにしてもよい。 Further, in the above embodiment, the flexible portion 10a,
Although the case where 101a is constituted by a bellows has been described, a flexible part which can be expanded and contracted may be constituted by a material other than the bellows.
また、上記実施例では中空室7,71が軸受台
4,41にそれぞれ設けられた場合について述べ
たが、中空室7,71を軸受3,31と軸受台
4,41との間に設けるようにしてもよい。 Further, in the above embodiment, the hollow chambers 7 and 71 are provided in the bearing pedestals 4 and 41, respectively. You can also do this.
ところで、上記説明では主軸装置が2個の場合
について述べたが、3個以上の主軸装置の場合に
ついてもこの発明を適用し得ることができ、上記
実施例と同様な効果を奏する。 Incidentally, in the above description, the case where there are two spindle devices has been described, but the present invention can also be applied to a case where there are three or more spindle devices, and the same effects as in the above embodiment can be obtained.
この発明は以上説明した通り、軸受部内部に形
成され且つ作動液体が封入される環状の中空室
と、軸受部の熱量を放熱する放熱装置とをそれぞ
れ有し、同じ機械に装着される第1、第2の主軸
装置、第1の主軸装置の中空室と第2の主軸装置
の放熱装置とを連通すると共に伸縮可能なフレキ
シブル部を有する第1の連通管、第2の主軸装置
の中空室と第1の主軸装置の放熱装置とを連通す
ると共に伸縮可能なフレキシブル部を有する第2
の連通管、第1の主軸装置の放熱装置と第1の連
通管とを連通する第3の連通管、第2の主軸装置
の放熱装置と第2の連通管とを連通する第4の連
通管を設け、軸受部の熱量を中空室から放熱装置
に熱輸送するようにしたことにより、軸受部の熱
量を速やかに奪い効率よく且つ平均的に冷却でき
るので、軸受部の熱変形・歪を最少限に抑制し工
作機械等の加工精度を向上できるという実用上極
めて大きな効果がある。 As explained above, this invention has an annular hollow chamber formed inside a bearing part and filled with a working liquid, and a heat radiating device for radiating the heat of the bearing part, and a first part installed in the same machine. , a second spindle device, a first communication pipe that communicates the hollow chamber of the first spindle device with a heat dissipation device of the second spindle device and has an expandable and contractible flexible portion, a hollow chamber of the second spindle device. and the heat dissipation device of the first spindle device, and has a flexible portion that can be expanded and contracted.
a third communication pipe that communicates the heat radiator of the first spindle device with the first communication tube, and a fourth communication tube that communicates the heat radiator of the second spindle device with the second communication tube. By providing a tube to transport the heat of the bearing from the hollow chamber to the heat dissipation device, the heat of the bearing can be quickly removed and cooled efficiently and evenly, reducing thermal deformation and distortion of the bearing. This has an extremely large practical effect in that it can be suppressed to a minimum and improve the machining accuracy of machine tools, etc.
第1図及び第2図は従来の多軸冷却装置を示す
断面側面図、第3図及び第4図はこの発明の一実
施例による多軸冷却装置を示すブロツク図及び断
面側面図である。
図において、1,11は第1、第2の主軸装
置、4,41は軸受台、7,71は中空室、8,
81は放熱装置、10,101は第1、第2の連
通管、10a,101aはフレキシブル部、1
2,121は第3、第4の連通管である。尚、図
中同一符号は同一又は相当部分を示す。
1 and 2 are cross-sectional side views showing a conventional multi-shaft cooling device, and FIGS. 3 and 4 are a block diagram and a cross-sectional side view showing a multi-shaft cooling device according to an embodiment of the present invention. In the figure, 1 and 11 are the first and second spindle devices, 4 and 41 are bearing stands, 7 and 71 are hollow chambers, 8,
81 is a heat dissipation device, 10 and 101 are first and second communication pipes, 10a and 101a are flexible parts, 1
2 and 121 are third and fourth communication pipes. Note that the same reference numerals in the figures indicate the same or corresponding parts.
Claims (1)
される環状の中空室と、上記軸受部の熱量を放熱
する放熱装置とをそれぞれ有し、同じ機械に装着
される第1、第2の主軸装置、上記第1の主軸装
置の中空室と上記第2の主軸装置の放熱装置とを
連通すると共に伸縮可能なフレキシブル部を有す
る第1の連通管、上記第2の主軸装置の中空室と
上記第1の主軸装置の放熱装置とを連通すると共
に伸縮可能なフレキシブル部を有する第2の連通
管、上記第1の主軸装置の放熱装置と上記第1の
連通管の途中とを連通する第3の連通管、上記第
2の主軸装置の放熱装置と上記第2の連通管の途
中とを連通する第4の連通管を備え、上記作動液
体の蒸発、凝縮作用により、上記軸受部の熱を上
記中空室から上記放熱装置に輸送するようにした
ことを特徴とする多軸冷却装置。 2 中空室は軸受台に形成されたことを特徴とす
る特許請求の範囲第1項記載の多軸冷却装置。 3 中空室は軸受台と軸受との間にに形成された
ことを特徴とする特許請求の範囲第1項記載の多
軸冷却装置。 4 フレキシブル部はベローズで構成されたこと
を特徴とする特許請求の範囲第1項ないし第3項
の何れかに記載の多軸冷却装置。[Scope of Claims] 1. An annular hollow chamber formed inside a bearing section and filled with a working liquid, and a heat radiating device for dissipating the heat of the bearing section, and a second device installed in the same machine. 1. A second main shaft device, a first communication pipe that communicates the hollow chamber of the first main shaft device with a heat dissipation device of the second main shaft device and has a flexible part that can be expanded and contracted, and the second main shaft a second communication pipe that communicates the hollow chamber of the device with the heat dissipation device of the first spindle device and has an expandable and contractible flexible portion; an intermediate link between the heat dissipation device of the first spindle device and the first communication pipe; and a fourth communication pipe that communicates between the heat dissipation device of the second spindle device and the middle of the second communication pipe, and by the evaporation and condensation action of the working liquid, A multi-axis cooling device characterized in that heat of the bearing portion is transported from the hollow chamber to the heat radiating device. 2. The multi-axis cooling device according to claim 1, wherein the hollow chamber is formed in a bearing stand. 3. The multi-shaft cooling device according to claim 1, wherein the hollow chamber is formed between the bearing stand and the bearing. 4. The multi-axis cooling device according to any one of claims 1 to 3, characterized in that the flexible portion is constituted by a bellows.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP23173182A JPS59118351A (en) | 1982-12-24 | 1982-12-24 | Multi-spindle cooling device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP23173182A JPS59118351A (en) | 1982-12-24 | 1982-12-24 | Multi-spindle cooling device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS59118351A JPS59118351A (en) | 1984-07-09 |
| JPS6214388B2 true JPS6214388B2 (en) | 1987-04-02 |
Family
ID=16928142
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP23173182A Granted JPS59118351A (en) | 1982-12-24 | 1982-12-24 | Multi-spindle cooling device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS59118351A (en) |
-
1982
- 1982-12-24 JP JP23173182A patent/JPS59118351A/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS59118351A (en) | 1984-07-09 |