JPH1034495A - Machine tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten warming up time. SOLUTION: A machine tool is provided with a machine tool body 2, a coolant supply pipe 4, a coolant discharge pipe 5 and a coolant cooling section 6 connected to both of the coolant supply pipe 4 and the coolant discharge pipe 5, and a pump 7, which circulates coolant between the machine tool body 2 and the coolant cooling section 6 through the coolant supply pipe 4 and the coolant discharge pipe 5 and the machine tool body 2 is provided with a temperature sensor 8. In addition a by-pass section 10 is provided between the coolant supply pipe 4 and the coolant discharge pipe 5, and a discharge pipe side selector valve 15 and a supply pipe side selector valve 16 are provided to cut off either the circulation flow Fc or Fb of the coolant flowing the coolant cooling section 6 and the buy-pass section 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a machine tool, and more particularly to a machine tool having a coolant cooling unit for cooling a coolant such as lubricating oil and coolant.

[0002]

In a machine tool provided with a coolant cooling unit for cooling a coolant such as a lubricating oil or a coolant, the coolant cooling unit is activated immediately after the machine is started to cool the coolant. In addition, since a large amount of coolant is used, it takes a lot of time for the machine temperature of the machine tool to rise to a temperature required for the machining operation, that is, it takes much time for the warm-up operation. Time is spent, and during this time, processing cannot be performed, or even if processing is performed, there is a problem that correction must be frequently performed in order to obtain the required processing accuracy. The solution was a conventional problem.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems. Needless to say, a coolant such as a lubricating oil and a coolant can be reliably cooled during a machining operation. It is an object of the present invention to provide a machine tool that can perform a warm-up operation immediately afterward in a short time.

[0004]

According to a first aspect of the present invention, there is provided a machine tool including: a machine tool main body; a coolant liquid supply passage for supplying a coolant liquid such as a lubricating oil and a coolant to the machine tool main body; A coolant liquid discharge path through which a coolant liquid discharged from the machine tool body flows, a coolant liquid cooling section communicating with both the coolant liquid supply path and the coolant liquid discharge path, and a coolant liquid supply path and a coolant liquid discharge path. Means for circulating a coolant liquid between the machine tool body and the coolant liquid cooling section, wherein the machine tool body is provided with coolant temperature detecting means, and the coolant liquid supply path and the coolant liquid discharge path are provided. The coolant discharged from the machine tool body is supplied to the coolant A configuration in which a bypass unit is provided for flowing in a path, and a switching unit is provided for interrupting one of a circulating flow of the coolant liquid passing through the coolant liquid cooling unit and the bypass unit based on a signal from the temperature detection unit. The configuration of this machine tool is a means for solving the above-mentioned conventional problems.

In the machine tool according to a second aspect of the present invention, the bypass portion includes a first bypass branched from a coolant discharge passage, a second bypass branched from a coolant supply passage, and a first bypass and a second bypass. And a bypass tank provided between the coolant discharge passage and the first bypass and between the coolant supply passage and the second bypass, respectively, based on a signal from the temperature detecting means. The exhaust passage-side switching valve and the supply passage-side switching valve that operate are used as switching means.

In the machine tool according to a third aspect of the present invention, the bypass portion communicates with the main body of the machine tool through a coolant discharge passage and communicates with the coolant cooling portion, and the discharged coolant storage tank; The liquid storage tank includes a bypass having one end facing closely to the end of the coolant discharge passage and the other end communicating with the coolant supply passage. The bypass is provided between the coolant supply passage and the bypass. A switching valve that operates based on a signal from the detecting means is configured as a switching means.

According to a fourth aspect of the present invention, in the machine tool, the bypass portion includes a bypass for communicating the coolant discharge passage and the coolant supply passage, and the bypass portion is provided between the coolant discharge passage and the bypass and the coolant passage. The discharge path side switching valve and the supply path side switching valve which are provided between the supply path and the bypass and operate based on a signal from the temperature detection means are used as the switching means.

[0008]

In the machine tool according to the first aspect of the present invention, during the warm-up operation, the temperature detecting means detects that the coolant has not warmed up, and based on the signal from the temperature detecting means, the switching means. Operates to block the circulating flow of the coolant discharged from the machine tool body through the coolant cooling section, so that the coolant discharged from the machine tool body does not pass through the coolant cooling section by the coolant circulating means. Since the fluid is returned to the machine tool main body again via the bypass portion and the coolant supply path, the time required for the warm-up operation can be reduced as compared with the case where the coolant passes through the coolant cooling portion.

When the temperature of the machine body of the machine tool rises to a temperature necessary for performing the machining operation, the temperature rise of the coolant liquid accompanying the rise is detected by the temperature detection means, and based on a signal from the temperature detection means. Since the switching means operates to cut off the circulating flow of the coolant discharged from the machine tool main body through the bypass portion, the coolant discharged from the machine tool main body is cooled by the coolant cooling section by the coolant circulating means. Then, the coolant is sent to the machine tool main body through the coolant supply passage, and the coolant is reliably cooled during the machining operation.

Further, in the machine tool according to the second aspect of the present invention, during a warm-up operation, the discharge path switching valve is operated based on a signal from the temperature detecting means, and the coolant liquid discharged from the machine tool body is discharged. Since the flow to the coolant cooling unit is cut off and the supply path switching valve is operated to cut off the flow of the coolant from the coolant cooling unit to the machine tool main body, that is, the coolant flowing through the coolant cooling unit is Since the circulation flow is cut off, the coolant liquid discharged from the machine tool body is returned to the machine tool body again through the first bypass, the bypass tank, the second bypass, and the coolant liquid supply path by the coolant liquid circulating means. When the warm-up operation is completed, the warm-up operation time is shortened. The discharge path side switching valve and the supply path side switching valve are operated to cut off the circulating flow of the coolant discharged from the machine tool through the first bypass, the bypass tank and the second bypass. It is sent to the machine tool main body through the coolant liquid cooling section and the coolant liquid supply path by the circulating means, and the coolant is reliably cooled during the machining operation.

Further, in the machine tool according to the third aspect of the present invention, at the time of warm-up operation, based on a signal from the temperature detecting means, the switching valve is operated to circulate the coolant flow through the coolant cooling section. Since the shutoff is performed, the coolant discharged from the machine tool body is returned to the machine tool body again through the discharged coolant storage tank, the bypass, and the coolant supply path, so that the warm-up operation time is reduced. When the warm-up operation is completed, the switching valve is operated based on the signal from the temperature detecting means to cut off the circulating flow of the coolant through the bypass. It will be sent to the machine tool body through the liquid cooling section and coolant liquid supply path, and during the machining operation,
Cooling of the coolant is ensured. At this time, only one switching valve is used, so that the cooling cost can be reduced.

Further, in the machine tool according to the fourth aspect of the present invention, similarly to the machine tool according to the second aspect, the warm-up operation time can be shortened and the coolant liquid can be cooled during the machining operation. In addition, the coolant liquid discharged from the machine tool main body is returned to the machine tool main body via the bypass and the coolant liquid supply path during the warm-up operation, that is, the machine liquid passes through the short path. The return to the machine body further shortens the warm-up operation time.

[0013]

In the machine tool according to the first and second aspects of the present invention, since the coolant is cooled during the machining operation, it is needless to say that the warm-up operation time can be ensured during the machining operation. Is significantly improved.

Further, in the machine tool according to the third aspect of the present invention, since the above configuration is adopted, the same effects as those of the machine tools according to the first and second aspects are obtained, and the cooling cost is reduced. In the machine tool according to the fourth aspect of the present invention, it is possible to reliably cool the coolant during the machining operation, and to reduce the warm-up operation time. A remarkably excellent effect that further shortening can be realized is brought about.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.

[First Embodiment] FIGS. 1 and 2 show one embodiment of a machine tool according to the first and second aspects of the present invention.

As shown in FIG. 1, the machine tool 1 includes a machine tool main body 2 and a two-tank tank 3 containing a coolant such as lubricating oil and coolant, and a coolant provided between the machine tool main body 2. A liquid supply pipe (coolant liquid supply path) 4;
A coolant liquid discharge pipe (coolant liquid discharge path) 5 similarly provided between the two-tank tank 3 and the machine tool main body 2;
A coolant cooling section 6 communicating with both the coolant supply pipe 4 and the coolant discharge pipe 5 via the tank type tank 3; and a coolant supply pipe 4 and a coolant discharge pipe provided in the coolant supply pipe 4. A pump (coolant liquid circulating means) 7 for circulating the coolant between the machine tool main body 2 and the coolant cooling unit 6 through the coolant supply pipe 5 and the coolant supply pipe 4 and the coolant cooling unit 6 are provided in two tanks. The coolant discharge pipe 5 and the coolant cooling unit 6 communicate with each other via the other liquid tank 3B, and the coolant liquid discharge pipe 5 and the coolant liquid cooling unit 6 communicate with each other via the other liquid tank 3B.

In this case, the machine tool main body 2 is provided with a temperature sensor (temperature detecting means) 8 for detecting the temperature of the coolant, and between the coolant supply pipe 4 and the coolant discharge pipe 5. Is provided with a bypass unit 10 for flowing the coolant discharged from the machine tool body 2 to the coolant supply pipe 4 avoiding the coolant cooling unit 6.

The bypass section 10 is provided with a first bypass 11 branched from the coolant discharge pipe 5, a second bypass 12 branched from the coolant supply pipe 4, and between the first bypass 11 and the second bypass 12. And a bypass tank 13 between the coolant discharge pipe 5 and the first bypass 11 and between the coolant supply pipe 4 and the second bypass 12. A supply pipe-side switching valve 16 is provided, and the discharge pipe-side switching valve 15 and the supply pipe-side switching valve 16 are respectively operated by a command from the temperature sensor 8 to provide a coolant liquid cooling section 6 and a bypass section. One of the circulating flows Fc and Fb of the coolant liquid passing through 10 is shut off.

In the machine tool 1, during the warming-up operation, the temperature sensor 8 detects that the coolant is not warmed up, and based on a signal from the temperature sensor 8, the discharge pipe side switching valve 15 is operated. The flow of the coolant discharged from the machine tool body 2 to the two-tank type tank 3 and the coolant cooling part 6 is shut off, and the supply pipe side switching valve 16 is operated to operate the coolant liquid cooling part 6 and the two-tank type tank. Since the flow of the coolant supplied from the third side to the machine tool main body 2 is blocked, that is, the circulating flow Fc of the coolant passing through the coolant cooling unit 6 is blocked, the coolant discharged from the machine tool main body 2 is discharged. The coolant is supplied to the first bypass 11, the bypass tank 13, the second bypass 12, and the coolant by the operation of the pump 7 without passing through the coolant cooling unit 6. From being returned to the machine tool body 2 again through the liquid supply pipe 4, so that the shortening of the warm-up operation time can be achieved.

When the temperature of the machine body of the machine tool 1 rises to a temperature required for the machining operation, the temperature rise of the coolant liquid accompanying the rise is detected by the temperature sensor 8. Based on the discharge pipe side switching valve 15
And the supply pipe side switching valve 16 is actuated, and the bypass portion 1 of the coolant discharged from the machine tool main body 2 is operated.
0 (first bypass 11, bypass tank 13 and second bypass 11)
By blocking the circulating flow Fb through the bypass 12),
The coolant discharged from the machine tool main body 2 is pumped by the pump 7 to the other liquid tank 3B of the two-tank tank 3, the coolant cooling section 6, one of the two tanks 3A and the coolant supply pipe. 4 and is sent to the machine tool main body 2 so that the coolant is reliably cooled during the machining operation.

Therefore, in the machine tool 1 and the conventional machine tool, the machine body temperature is set to a temperature (about 3) required for the machining operation.
Compared with how long it takes to rise to 0 ° C.), as shown in FIG. 2, the conventional machine tool requires about 30 minutes for warm-up time, With the machine tool 1 in the example, the warm-up operation was completed in about 10 minutes.

Therefore, it was proved that the warm-up operation time of the machine tool 1 of this embodiment can be shortened.

[Second Embodiment] FIG. 3 shows an embodiment of a machine tool according to the first and third aspects of the present invention.
In the machine tool 21 shown in FIG. 3, the bypass unit 30 communicates with the machine tool main body 2 via the coolant discharge pipe 5A and communicates with the coolant cooling unit 6 in the other liquid tank (discharge coolant liquid) of the two-tank tank 3. (A storage tank) 3B and a bypass 31 whose one end faces closely to the end of the coolant discharge pipe 5A and the other end communicates with the coolant supply pipe 4 in the other liquid tank 3B of the two-tank type tank 3. And the coolant liquid supply pipe 4 and the bypass 31
A switching valve 36 is provided as switching means that operates based on a signal from the temperature sensor 8, and the other configuration is the same as that of the machine tool 1 according to the first embodiment.

That is, in the machine tool 21, during the warm-up operation, the switching valve 36 is operated based on the signal from the temperature sensor 8 to cut off the circulating flow Fc of the coolant through the coolant cooling unit 6. , Machine tool body 2
Is discharged from the machine tool main body 2 again through the other liquid tank 3B of the two-tank type tank 3, the bypass 31, and the coolant liquid supply pipe 4 by the operation of the pump 7.
, The warm-up operation time is reduced,
On the other hand, when the warm-up operation is completed, the switching valve 36 is operated based on the command from the temperature sensor 8 to cut off the circulating flow Fb of the coolant liquid passing through the bypass 31, so that the other liquid in the two-tank tank 3 The coolant liquid that has entered the tank 3B is sent to the machine tool main body 2 through the coolant liquid cooling section 6, one of the liquid tanks 3A of the two-tank type tank 3, and the coolant liquid supply pipe 4, and during the machining operation. The cooling of the coolant liquid is ensured, and the switching valve 36
Is used and the bypass tank 13 used in the machine tool 1 of the first embodiment is not required, so that the cooling cost can be reduced.

[Third Embodiment] FIG. 4 shows an embodiment of a machine tool according to claims 1 and 4 of the present invention.
In the machine tool 41 shown in FIG.
A bypass 51 is provided to allow the coolant discharge pipe 5B and the coolant supply pipe 4 to communicate with each other, between the coolant discharge pipe 5B and the bypass 51 and the coolant supply pipe 4
A discharge pipe-side switching valve 55 and a supply pipe-side switching valve 56 as switching means that operate based on a signal from the temperature sensor 8 are provided between the first and the second embodiments, respectively. It is the same as the machine tool 1 according to the example.

In the machine tool 41, similarly to the machine tool 1 of the first embodiment, the warm-up operation time is shortened, the coolant is reliably cooled during the machining operation, and the warm-up operation is performed. At the time, the coolant discharged from the machine tool main body 2 by the operation of the discharge pipe side switching valve 55 and the supply pipe side switching valve 56 is re-distributed through the coolant discharge pipe 5B, the bypass 51 and the coolant supply pipe 4. Since it is returned to the machine tool body 2,
That is, the circulating flow F of the coolant liquid passing through the bypass 51
Since b is returned to the machine tool main body 2 through a short path, the warm-up operation time can be further reduced.

[Brief description of the drawings]

FIG. 1 is an explanatory view of piping showing a first embodiment of a machine tool according to the present invention.

FIG. 2 is a graph showing a relationship between a body temperature and an elapsed time during a warm-up operation of the machine tool shown in FIG.

FIG. 3 is an explanatory view of piping showing a second embodiment of the machine tool according to the present invention.

FIG. 4 is a piping explanatory view showing a third embodiment of the machine tool according to the present invention.

[Explanation of symbols]

1, 21, 41 Machine tool 2 Machine tool main body 3B The other liquid tank of two-tank tank 3 (discharge coolant liquid storage tank) 4 Coolant liquid supply pipe (coolant liquid supply path) 5, 5A, 5B Coolant liquid discharge pipe ( Coolant liquid discharge path) 6 Coolant liquid cooling section 7 Pump (coolant liquid circulating means) 8 Temperature sensor (temperature detecting means) 10, 30, 50 Bypass section 11 First bypass 12 Second bypass 13 Bypass tank 15, 55 Discharge pipe side Switching valve (discharge path switching valve; switching means) 16, 56 Supply pipe side switching valve (supply path switching valve; switching means) 31, 51 Bypass 36 Switching valve (switching means) Fc, Fb Circulating flow of coolant

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Yu Owada Nissan Motor Co., Ltd. (2) 2 Takaracho, Kanagawa-ku, Yokohama, Nissan Motor Co., Ltd. (72) Toshikazu Otani 2 Takaracho, Kanagawa-ku, Yokohama, Kanagawa Nissan Motor (72) Inventor Katsutoshi Miyahara, 2 Takara-cho, Kanagawa-ku, Yokohama, Kanagawa Prefecture Inside Nissan Motor Co., Ltd. (72) Inventor Minoru Ota 2 Takara-cho, Kanagawa-ku, Yokohama City, Kanagawa Prefecture Nissan Motor Co., Ltd. (72) Invention Person Manabu Wakuda Nissan Motor Co., Ltd., 2 Takaracho, Kanagawa-ku, Yokohama-shi, Kanagawa

Claims (4)

[Claims] 1. A machine tool main body, a coolant liquid supply path for supplying a coolant liquid such as a lubricating oil and a coolant to the machine tool main body, and a coolant liquid discharge path for flowing a coolant liquid discharged from the machine tool main body. A coolant liquid cooling section communicating with both the coolant liquid supply path and the coolant liquid discharge path, and a coolant liquid circulating between the machine tool main body and the coolant liquid cooling section via the coolant liquid supply path and the coolant liquid discharge path. A coolant liquid circulating means for causing the coolant to be discharged from the machine tool main body between the coolant liquid supply path and the coolant liquid discharge path, while providing a coolant temperature detecting means in the machine tool body. A bypass section is provided to flow through the coolant supply passage avoiding the coolant cooling section, and a signal from the temperature detecting means is provided. A machine tool provided with switching means for shutting off either one of the coolant flow circulating through the coolant cooling section and the bypass section based on the signal. 2. The bypass unit includes a first bypass branched from a coolant discharge passage, a second bypass branched from a coolant supply passage, and a bypass tank provided between the first bypass and the second bypass. A discharge path switching valve and a supply path switching provided respectively between the coolant discharge path and the first bypass and between the coolant supply path and the second bypass and operated based on a signal from the temperature detecting means; The machine tool according to claim 1, wherein the valve is a switching unit. 3. A discharge coolant storage tank communicating with a machine tool main body via a coolant discharge passage and communicating with a coolant cooling unit, and one end of the bypass coolant storage tank has a coolant liquid. A bypass is provided close to the end of the discharge path and the other end communicates with the coolant supply path. The bypass is provided between the coolant supply path and the bypass and operates based on a signal from the temperature detecting means. The machine tool according to claim 1, wherein the switching valve is a switching unit. 4. The bypass unit includes a bypass that connects the coolant discharge passage and the coolant supply passage.
A discharge path switching valve and a supply path switching valve that are respectively provided between the coolant discharge path and the bypass and between the coolant supply path and the bypass and operated based on a signal from the temperature detecting means; The machine tool according to claim 1.