KR19980053896U - Coolant tank structure - Google Patents

Abstract

By preventing the inflow of chips from the primary tank to the secondary tank, the cleaning cycle of the secondary and tertiary tanks is prolonged, greatly reducing the cleaning time, and preventing the inflow of oil from the secondary tank to the tertiary tank. It provides a coolant tank structure that satisfies the role of coolant by supplying only pure coolant, and extends the life of the coolant pump. In a coolant tank divided into a tertiary tank for supplying a coolant, a chip inflow prevention panel having a predetermined height from a lower portion is installed between the primary tank and the secondary tank, and a primary filtering network for coolant inflow is placed thereon. And, between the secondary tank and the tertiary tank, a certain height from the bottom is installed a secondary filter network for the coolant inlet, and an oil inflow prevention panel is installed thereon It is done.

Description

Coolant tank structure

The present invention relates to a coolant tank structure that ensures separation of chips and oil in a coolant tank and finally maintains a clean state without inflow of oil and chips in a tertiary tank supplying finally filtered coolant.

Figure 1 shows the structure of a conventional coolant tank.

As shown, the coolant tank 50 is separated into the primary tank 56, the secondary tank 58, and the tertiary tank 60 by the installation of the secondary filter network 54 of the primary filter network 52. It is.

And the primary tank is provided with a magnetic 62 for separating the chips transferred with the coolant through the chip conveyor (not shown) and a scraper 64 for transferring the chips to the chip box, the tertiary tank 60 The oil skimmer 65 and the coolant pump 66 for removing oil are installed.

According to the conventional coolant tank 10 configured as described above, when the chip containing the coolant after the machining is transferred to the chip conveyor, the chip is attached to the floor by the magnetic force of the magnetic 62 and the rotation of the conveyor motor (not shown). The scraper 64 transfers the chip to the chip box.

In the process of discharging the chips, some of the chips are introduced into the primary tank 56 together with the coolant, and the chips are stacked. As time passes, chips and coolants continue to flow, and when the primary filter network 52 is cleaned, chips accumulated at the bottom of the primary tank 56 flow into the secondary tank 58 together with the coolant. Even when the secondary filter network 54 is cleaned, the chips of the secondary tank 58 are introduced into the tertiary tank 60.

The problem in this case is first, as the chip has to clean all of the primary tank 56, the secondary tank 58 and the tertiary tank 60 during the cleaning of the coolant tank 50 as a lot of inflow There is a problem that should spend the cleaning time.

Second, when the chip introduced into the tertiary tank 60 enters the coolant pump 66, it causes a failure of the coolant pump 66.

In addition, although the oil skimmer 65 filters the oil introduced with the coolant after machining, some oil is introduced into the tertiary tank 60 together with the coolant. Accordingly, when the coolant pump 66 is operated, pumping the coolant in a state in which the coolant is not separated from the oil causes a problem in that the cleantling, cleaning, and cooling, which are the role of the coolant, cannot be satisfactorily exhibited.

The present invention was devised to solve the problems of the prior art as described above, so as to prevent the inflow of chips from the primary tank to the secondary tank to increase the cleaning period of the secondary and tertiary tanks to increase the cleaning time. Cooling that greatly reduces the flow of oil from the secondary tank to the tertiary tank and provides pure coolant to satisfy the function of the coolant and to extend the life of the coolant pump. The purpose is to provide a runt tank structure.

In order to achieve the above object, the present invention provides a coolant tank that is divided into a primary tank, a secondary tank, and a tertiary tank for supplying filtered coolant. Install a panel for preventing chip inflow, install a primary filter network for coolant inflow on top of it, and install a secondary filter network for coolant inflow from the bottom between the secondary and tertiary tanks On it is characterized in that the oil inlet prevention panel is installed.

1 is a front view of a conventional coolant tank structure.

Figure 2 is a front view of the coolant tank structure of the present invention.

Explanation of symbols for the main parts of the drawings

10 chip intrusion prevention panel 12 primary filter network

14 secondary filter network 16: oil inflow prevention panel

50: coolant tank 56: primary tank

58: secondary tank 60: tertiary tank

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the description of the present invention, the same or equivalent parts as in the prior art will be described with the same reference numerals.

Figure 2 shows a front view of the coolant tank structure of the present invention.

In the coolant tank 10 separated into the primary tank 56 and the secondary tank 58 and the tertiary tank 60 which supplies the filtered coolant as shown, the primary tank 56 Between the and the secondary tank 58, a predetermined height from the bottom is provided with a chip inflow prevention panel 10, and a coolant inlet primary filter network 12 is installed thereon, and the secondary tanks 58 and 3 The secondary filter net 14 for coolant inflow is provided between the primary tanks 60, and the oil inflow prevention panel 16 is installed on it.

According to the present invention configured as described above, when the chip containing the coolant after the machining is transferred to the chip conveyor, the scraper 64 is attached to the floor by the magnetic force of the magnetic 62 and then rotated by the conveyor motor (not shown). Transfers the chip to the chip box.

In the process of discharging the chips, some chips are introduced into the primary tank 56 together with the coolant, and the chips are stacked. As time passes, chips and coolants continuously flow to clean the primary filter network 12, and a chip inflow prevention panel 10 is installed at the lower portion of the primary filter network 12 so that the chip enters the secondary tank 58. It does not flow in. That is, the flow direction of the coolant is controlled by providing the chip inflow prevention panel 10.

The secondary tank (58) and the secondary tank (60) between the secondary filter net 14 and the oil inlet prevention panel (16) is installed on the upper side of the secondary tank because the oil is floating on the coolant At 58, the oil does not flow into the tertiary tank 60. At this time, the oil skimmer 65 in the secondary tank 58 filters the oil. Accordingly, since only the pure coolant flows into the tertiary tank 60, it is possible to always maintain a clean state.

On the other hand, the oil inflow prevention panel 16 is preferably installed about 30 mm lower than the lower limit of the coolant when the coolant pump 66 is pumped.

As described above, the present invention does not flow into the secondary and tertiary tanks, and thus the chips are stacked in the primary tank, so that only the cleaning time of the primary tank is required, thereby greatly reducing the cleaning time. Since it does not flow into the tank, the coolant pump is prevented from breaking, and the oil is blocked from the secondary tank so that the coolant of the third tank is kept clean so that the coolant can play its original role.

Claims (1)

In the coolant tank 50 divided into the primary tank 56, the secondary tank 58, and the tertiary tank 60 which supplies the filtered coolant, Between the primary tank 56 and the secondary tank 58, a predetermined height from the bottom is provided with a chip inflow prevention panel 10, and a coolant inlet primary filter network 12 is installed thereon, 2 Between the primary tank (58) and the tertiary tank (60), a secondary filter net (14) for inflowing coolant from a lower portion is provided, and an oil inflow prevention panel (16) is provided thereon. Coolant tank structure.