CN219465383U - Base structure for machine tool machining center - Google Patents

Abstract

The utility model relates to a base structure for a machine tool machining center, which belongs to the technical field of machining centers and comprises a separation box fixedly arranged on the left end face of a base body of the machining center base, wherein a supporting plate for separating cooling liquid and scrap iron is fixedly arranged on the upper wall body and the lower wall body of a box cavity of the separation box, a filtering and precipitating cavity for precipitating the cooling liquid is arranged in the box cavity of the separation box, scrap discharging cavities for storing the separated scrap iron are arranged on the left side and the right side of a cavity of the filtering and precipitating cavity, a separation screen plate for further separating the cooling liquid from the scrap iron is fixedly arranged between plate bodies of the two supporting plates, the cooling liquid in the cutting liquid and the smaller scrap iron are filtered through the separation screen plate arranged on the left end face of the base, and after the separated cooling liquid is purified through filtering and precipitating of the filtering and precipitating cavity, the purified cooling liquid is conveyed into a liquid storage box for reuse through the operation of a water pump.

Description

Base structure for machine tool machining center

Technical Field

The utility model relates to the technical field of machining centers, in particular to a base structure for a machine tool machining center.

Background

The machining center base is the basis of the machine tool, the machining center can generate cutting fluid in the use process, and the cutting fluid contains cutting scrap iron and cooling fluid, so that the cutting fluid is not beneficial to recycling and reusing.

For example, a Chinese patent application number is CN202221672166.4, a vertical machining center base and a vertical machining center are provided, a plurality of Y-axis rail mounting surfaces and a plurality of chip removal grooves are formed in the horizontal bearing table, the Y-axis rail mounting surfaces are arranged in a side-by-side extending mode and are arranged in an axisymmetric mode along a Y axis, and groove bodies of the chip removal grooves are arranged in an extending mode in the Y axis direction; the number of the plurality of Y-axis rail mounting surfaces is even and is more than 4, and the distance between two Y-axis rail mounting surfaces at the most middle position in the plurality of Y-axis rail mounting surfaces is larger than the distance between other adjacent Y-axis rail mounting surfaces and smaller than a preset distance threshold; the plurality of junk slots includes a first junk slot, a second junk slot separated by two Y-axis rail mounting surfaces at a most intermediate position. It has the following disadvantages:

in the use of machining center, the cutting iron fillings that produce can drop in the coolant liquid, owing to first chip groove and the even slope setting of second chip groove, are favorable to the discharge of sweeps and cutting liquid, but can't carry out reuse to the coolant liquid.

Disclosure of Invention

In order to solve the problems that in the prior art, the generated cutting scrap iron falls into the cooling liquid in the use process of the machining center, and the first scrap discharging groove and the second scrap discharging groove are uniformly and obliquely arranged, so that the scrap iron and the cutting liquid are discharged, but the cooling liquid cannot be recycled, the utility model provides the following technical scheme:

the utility model provides a base structure for machine tool machining center, includes the machining center base that is used for supporting the lathe saddle, the pedestal left end face fixed mounting of machining center base has the filtration separating mechanism that is used for carrying out filtration recovery to the coolant liquid in the pedestal of machining center base and recycles, the pedestal front end face fixed mounting of machining center base has the stock solution mechanism that is used for carrying out the cooling to the cutter in the machining center work.

The machining center base comprises a first chip removal port which is formed in the right end face of the base body of the machining center base and used for enabling cutting fluid to flow into the filtering and separating mechanism, and a filter screen used for filtering cooling fluid and scrap iron is fixedly arranged in a groove of the filter screen.

The filtering and separating mechanism comprises a separating box fixedly arranged on the left end face of a base body of a base of the machining center, a supporting plate for separating cooling liquid and scrap iron is fixedly arranged on the upper wall body and the lower wall body of a box cavity of the separating box, a filtering and precipitating cavity for precipitating the cooling liquid is arranged in the box cavity of the separating box, scrap discharging cavities for storing the separated scrap iron are arranged on the left side and the right side of a cavity of the filtering and precipitating cavity, and a separating screen plate for further separating the cooling liquid from the scrap iron is fixedly arranged between the plate bodies of the supporting plate.

Further, the box right side wall body of the separation box is provided with a groove for cutting fluid to enter the box cavity of the separation box, the size of the groove is the same as that of the first chip removal port, the left end face of the separation box is provided with a first pipeline for discharging cooling fluid precipitated in the cavity of the filtering precipitation cavity into the liquid storage mechanism, the wall body of the support plate is provided with a second chip removal port for separating scrap iron on the top end of the screen plate and entering the cavity of the chip removal cavity, and the top end face of the separation screen plate is provided with a cleaning device for cleaning the scrap iron into the cavity of the chip removal cavity.

Further, cleaning device is including being used for cleaning the brush of separating the otter board, the left end face fixed mounting of brush has the round bar that is used for driving the brush and controls the removal, and the round bar runs through the left side wall body of backup pad and separator box, the left end face fixed mounting of round bar has the strip shaped plate that is used for driving the round bar and controls the removal, and the strip shaped plate is located the box outside of separator box.

Further, the machining center base further comprises guide rails for moving the working platform, the two guide rails are symmetrically distributed on the base body of the machining center base, chip grooves for discharging cutting fluid generated by machine tool operation are formed between the two guide rails, and the chip grooves are inclined grooves from left to right.

Further, the bottom end surface of the base body of the machining center base is fixedly provided with supporting feet for supporting the machining center base, and six supporting feet are distributed on the bottom end surface of the base body of the machining center base in a linear array.

Further, the liquid storage mechanism comprises a liquid storage tank for storing cooling liquid, a water pump for providing power is fixedly arranged on the left side wall body of the liquid storage tank, a pipeline II for enabling the filtered cooling liquid to enter the tank cavity of the liquid storage tank is arranged on the pump body of the water pump, and the other end of the pipeline II is connected with the pipeline I through a rubber pipe.

Compared with the prior art, the utility model has the beneficial effects that:

through the separator box that is equipped with at the base left end face, and the coolant liquid in the cutting fluid is filtered with less iron fillings to the separation otter board in the separator box, and the filtration sediment of again through straining the precipitation chamber purifies the coolant liquid that will separate out afterwards, carries the coolant liquid after purifying into the liquid reserve tank through the work of water pump and recycles to can realize the reuse to the coolant liquid.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a machining center according to the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is a top view of the present utility model;

FIG. 5 is a schematic diagram of a filtration separation mechanism according to the present utility model;

FIG. 6 is a schematic diagram of a separator tank according to the present utility model;

FIG. 7 is a schematic view of a cleaning apparatus according to the present utility model;

FIG. 8 is a schematic diagram of a reservoir mechanism according to the present utility model.

In the drawings, the list of part names represented by the reference numerals is as follows:

100-machining center base, 200-filtration separating mechanism, 300-liquid storage mechanism, 110-guide rail, 120-chip removal groove, 130-first chip removal groove, 101-supporting leg, 102-filter screen, 210-separation box, 220-cleaning device, 201-first pipeline, 202-supporting plate, 203-groove, 204-separation screen plate, 211-chip outlet cavity, 212-filtration sedimentation cavity, 221-strip plate, 222-round rod, 223-brush, 310-liquid storage box, 320-water pump, 320-second pipeline and 001-second chip removal groove.

Detailed Description

Preferred embodiments for carrying out the present utility model are described in detail below, and a clear and complete description thereof is provided with reference to the accompanying drawings.

Referring to fig. 1-8, the present utility model provides a base structure for a machining center of a machine tool.

The machining center base 100 is the base of the machine tool, and the machining center generates cutting fluid during use, and the cutting fluid contains cutting scrap iron and cooling fluid, so that the cutting fluid needs to be recovered and reused. The left end face of the base body of the machining center base 100 is fixedly provided with a filtering and separating mechanism 200 for filtering, recycling and reusing cooling liquid in the base body of the machining center base 100, and the front end face of the base body of the machining center base 100 is fixedly provided with a liquid storage mechanism 300 for cooling a cutter in the working process of the machining center.

The machining center base 100 includes a first chip discharge port 130 formed on a right end surface of the base body of the machining center base 100 for allowing cutting fluid to flow into the filtering and separating mechanism 200, and the first chip discharge port 130 is a square notch, so that the cutting fluid can flow into the filtering and separating mechanism 200 conveniently. A filter screen 10 for carrying out first-step filtration on cooling liquid and scrap iron is installed in a notch of a first chip removal port 130 through a clamping structure, and the filter screen 10 plays an isolating role on the generated larger scrap iron when a machining center works, so that the larger scrap iron is prevented from entering the filtering and separating mechanism 200, and the recovery of the cooling liquid is influenced. The machining center base 100 further comprises guide rails 110 for moving the working platform, the two guide rails 110 are symmetrically distributed on the base body of the machining center base 100, chip grooves 120 for discharging cutting fluid generated by machine tool work are formed between the two guide rails 110, and the chip grooves 120 are obliquely arranged from the upper left to the lower right, so that the cutting fluid is conveniently discharged. When an operator starts the machining center by controlling the motor, the coolant and the scrap iron can be separated from each other when the machining center is operated because the scrap discharge groove 120 is an inclined groove.

The bottom end surface of the base body of the machining center base 100 is fixedly provided with supporting feet 101 for supporting the machining center base 100, and the six supporting feet 101 are distributed on the bottom end surface of the base body of the machining center base 100 in a linear array. The support feet 101 serve to stabilize the machining center base 100, thereby facilitating stable operation of the machining center.

The filtering and separating mechanism 200 includes a separating box 210 fixed to the left end surface of the base body of the machining center base 100 by bolts, and a cleaning device 220 for cleaning scrap iron separated in the box cavity of the separating box 210.

The upper and lower walls of the chamber of the separation chamber 210 are fixedly provided with two support plates 202 for separating the coolant from the scrap iron, the separation chamber 210 is divided into three parts, a filtering sedimentation chamber 212 is arranged in the middle, and scrap discharging chambers 211 are arranged on the two sides. The right side wall body of the box body of the separation box 210 is provided with a groove 203 for cutting fluid to enter the box cavity of the separation box 210, and the size of the groove 203 is the same as that of the first chip removal port 130, so that the cutting fluid is convenient to enter the box cavity of the separation box 210. A separation screen 204 for further separating the coolant from the scrap iron is fixedly installed between the plate bodies of the two support plates 202, and holes of the separation screen 204 are smaller than those of the filter screen 102, so that the cutting fluid can be further separated. The wall body of the supporting plate 202 is provided with a second chip removing port 001 for the scrap iron on the top end of the separating screen 204 to enter the cavity of the chip discharging cavity 211, and the second chip removing port 001 is convenient for cleaning the scrap iron on the upper surface of the separating screen 204 into the chip discharging cavity 211 through the cleaning device 220. The left end face of the separation tank 210 is provided with a first pipe 201 for discharging the cooling liquid precipitated in the cavity of the filtering and precipitating chamber 212 into the liquid storage mechanism 300.

The bottom ends of the two scrap discharging cavities 211 are movably provided with collecting boxes for uniformly treating scrap iron in the cavities of the scrap discharging cavities 21, the front end face of the separating box 210 is provided with long grooves for the collecting boxes to enter the cavities of the scrap discharging cavities 21, and when the machining center finishes machining, the scrap iron can be uniformly treated only by extracting the collecting boxes from the long grooves. The filtering and precipitating cavity 212 is used for conveniently precipitating the cooling liquid separated by secondary filtering, so that the cooling liquid is convenient to recycle, and the cavity of the filtering and precipitating cavity 212 is internally provided with the precipitating liquid for precipitating the smaller scrap iron in the cooling liquid.

The cleaning device 220 includes a brush 223 for cleaning the separation net plate 204, a circular rod 222 for driving the brush 223 to move left and right is welded to the left end surface of the brush 223, and the circular rod 222 penetrates through the support plate 202 and the left sidewall of the separation box 210, thereby facilitating the left and right movement of the circular rod 222. A strip plate 221 for driving the round bar 222 to move left and right is fixedly installed at the left end surface of the round bar 222, and the strip plate 221 is a rectangular plate, and the strip plate 221 is located at the outside of the case body of the separation case 210. Thereby preventing entry of the strip 221 into the chamber of the separator tank 210. An operator can clean scrap iron on the upper surface of the separation screen 204 into the scrap discharging cavity 211 by pushing and pulling the strip plate 221, so that unified treatment is performed on the scrap iron.

The liquid storage mechanism 300 includes a liquid storage tank 310 for storing the cooling liquid, and the liquid storage tank 310 is fixed to the front end surface of the base body of the machining center base 100 by bolts. A water pump 320 for providing power is fixedly installed on the left side wall of the tank body of the liquid storage tank 310, and the water pump 320 is used for conveniently pumping the cooling liquid filtered and precipitated in the cavity of the filtering and precipitating cavity 212 into the tank cavity of the liquid storage tank 310. The pump body of the water pump 320 is provided with a second pipeline 330 for the filtered cooling liquid to enter the tank cavity of the liquid storage tank 310, and the other end of the second pipeline 330 is connected with the first pipeline 201 through a rubber pipe. The operator only needs to drive the water pump 320 to work, and the cooling liquid filtered and precipitated in the cavity of the filtering and precipitating cavity 212 is connected with the first pipeline 201 through the rubber pipe at the other end of the second pipeline 330, so that the cooling liquid can be pumped into the cavity of the liquid storage tank 310, and the recycling of the cooling liquid can be realized.

Based on the above description and the drawings, one skilled in the art will be able to understand and practice the present utility model. Furthermore, any non-inventive modifications to the present utility model that would not be made by a person skilled in the art without the inventive effort would still fall within the scope of the present utility model.

Claims (6)

1. Base structure for machine tool machining center, including being used for carrying out machining center base (100) that support to the lathe saddle, its characterized in that: the left end face of the base body of the machining center base (100) is fixedly provided with a filtering and separating mechanism (200) for filtering, recycling and reusing cooling liquid in the base body of the machining center base (100), and the front end face of the base body of the machining center base (100) is fixedly provided with a liquid storage mechanism (300) for cooling a cutter in the working process of the machining center;

the machining center base (100) comprises a first chip removal port (130) which is arranged on the right end face of the base body of the machining center base (100) and used for allowing cutting fluid to flow into the filtering and separating mechanism (200), and a filter screen (102) used for filtering cooling fluid and scrap iron is fixedly arranged in a notch of the first chip removal port (130);

the filtering and separating mechanism (200) comprises a separating box (210) fixedly arranged on the left end face of a base body of the machining center base (100), a supporting plate (202) for separating cooling liquid and scrap iron is fixedly arranged on the upper wall body and the lower wall body of a box cavity of the separating box (210), a filtering and precipitating cavity (212) for precipitating the cooling liquid is arranged in the box cavity of the separating box (210), scrap discharging cavities (211) for storing separated scrap iron are arranged on the left side and the right side of a cavity of the filtering and precipitating cavity (212), and a separating screen plate (204) for further separating the cooling liquid and the scrap iron is fixedly arranged between the plate bodies of the supporting plate (202).

2. A base structure for a machining center of a machine tool according to claim 1, wherein: the right side wall body of the box body of the separation box (210) is provided with a groove (203) for cutting fluid to enter a box cavity of the separation box (210), the size of the groove (203) is the same as that of a first chip removal port (130), the left end face of the separation box (210) is provided with a first pipeline (201) for discharging cooling fluid precipitated in a cavity of a filtering and precipitating cavity (212) into a liquid storage mechanism (300), the wall body of the support plate (202) is provided with a second chip removal port (001) for separating scrap iron on the top end of a screen plate (204) from entering a cavity of a chip removal cavity (211), and the top end face of the screen plate (204) is provided with a cleaning device (220) for cleaning the scrap iron into the cavity of the chip removal cavity (211).

3. A base structure for a machining center of a machine tool according to claim 2, wherein: the cleaning device (220) comprises a brush (223) for cleaning the separation screen plate (204), a round rod (222) for driving the brush (223) to move left and right is fixedly arranged on the left end face of the brush (223), the round rod (222) penetrates through the supporting plate (202) and the left side wall body of the separation box (210), a strip-shaped plate (221) for driving the round rod (222) to move left and right is fixedly arranged on the left end face of the round rod (222), and the strip-shaped plate (221) is located outside the box body of the separation box (210).

4. A base structure for a machining center of a machine tool according to claim 1, wherein: the machining center base (100) further comprises guide rails (110) used for moving the working platform, the guide rails (110) are symmetrically distributed on the base body of the machining center base (100), chip removal grooves (120) used for discharging cutting fluid generated by machine tool operation are formed between the two guide rails (110), and the chip removal grooves (120) are inclined grooves from left to right.

5. A base structure for a machining center of a machine tool according to claim 4, wherein: the bottom end surface of the base body of the machining center base (100) is fixedly provided with supporting feet (101) used for supporting the machining center base (100), and the six supporting feet (101) are distributed on the bottom end surface of the base body of the machining center base (100) in a linear array.

6. A base structure for a machining center of a machine tool according to claim 1, wherein: the liquid storage mechanism (300) comprises a liquid storage tank (310) for storing cooling liquid, a water pump (320) for providing power is fixedly arranged on the left side wall body of the tank body of the liquid storage tank (310), a second pipeline (330) for enabling the filtered cooling liquid to enter the tank cavity of the liquid storage tank (310) is arranged on a pump body of the water pump (320), and the other end of the second pipeline (330) is connected with the first pipeline (201) through a rubber pipe.