CN114272668A

CN114272668A - Feeding structure of machine tool machining scrap separation equipment

Info

Publication number: CN114272668A
Application number: CN202210034019.2A
Authority: CN
Inventors: 宋永石; 李言栋; 张霖
Original assignee: Yangtze Normal University
Current assignee: Yangtze Normal University
Priority date: 2020-06-08
Filing date: 2020-06-08
Publication date: 2022-04-05
Anticipated expiration: 2040-06-08
Also published as: CN111617544A; CN114272668B; CN111617544B

Abstract

The invention discloses a feeding structure of machine tool machining waste chip separation equipment, which comprises a bowl-shaped rotating disk, wherein the rotating disk is fixedly arranged above a main shaft of a centrifugal cutting waste chip separator, the opening direction of the rotating disk is upward, the axis of the lower end of the rotating disk is fixedly connected with the main shaft, the edge of an opening at the upper end of the rotating disk is fixedly and upwardly connected with a circle of screen, a waste chip accommodating space is formed on a casing at the upper end of the screen, and a feeding port is formed in the top wall of the waste chip accommodating space, which is opposite to the middle position of the rotating disk; the scrap accommodating device is characterized in that a guide cylinder is arranged on the top wall of the scrap accommodating space at the lower end of the feed opening downwards, the guide cylinder is in a frustum shape with a small diameter end downwards, the large diameter end is larger than the diameter of the feed opening, and the small diameter end of the guide cylinder is arranged right at the bottom of the rotating disc. The invention is used for separating machining cutting waste chips from cutting fluid, and has the advantages of simple implementation, convenient control, rapidness, high efficiency, good separation effect and the like.

Description

Feeding structure of machine tool machining scrap separation equipment

The application is a divisional application of a patent of 'a machine tool machining scrap separation method' with application number 202010514145.9, application date 2020-6-8.

Technical Field

The invention relates to machine tool machining waste chip separation equipment in the technical field of machine tool machining waste chip recovery, in particular to a feeding structure of the machine tool machining waste chip separation equipment.

Background

Machining is short for machining and refers to a machining process for removing materials through mechanical precision machining. The method comprises machining modes such as cutting and drilling. Such as vehicle accessories, are often manufactured by machining. Some metal components, or special material components, need to be considered for recycling the waste chips of cutting waste when the raw materials are expensive. The first step of the waste chip recovery treatment usually needs to realize the separation of waste chips and cutting fluid.

The traditional mode of a filter screen or a filter vat is adopted, the separation efficiency is too low, and the defect of incomplete separation of cutting fluid exists. CN109396944A discloses a negative pressure type chip suction and separation mechanism. The cooling liquid is quickly sucked into the liquid aggregate tank by adopting a negative-pressure chip suction mode, so that the separation of metal chips and cutting liquid is realized. But still has the defects of higher equipment cost and lower separation efficiency.

Therefore, how to design a technology capable of more efficiently and quickly separating cutting scraps from cutting fluid and improving the separation effect becomes a problem to be considered and solved by the technical personnel in the field.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problems to be solved by the invention are as follows: how to provide a machine tool machining scrap separation method which is simple to implement, convenient to control, fast, efficient and good in separation effect, and a feeding structure of machine tool machining scrap separation equipment.

In order to solve the technical problems, the invention adopts the following technical scheme:

a machine tool machining waste chip separation method is characterized in that machine tool machining waste chips are scattered and scattered firstly and then are placed into a horizontally arranged revolving body container, the upper end of the revolving body container is arranged in a mode that an opening is formed outwards, at least one section of filtering structure is arranged on the revolving body container, the machine tool machining waste chips are placed into the revolving body container and then rotate the revolving body container at a high speed, cutting fluid in the machine tool machining waste chips is thrown out of the filtering structure to the lower portion of the revolving body container, the machine tool machining waste chips are thrown out of the upper end opening of the revolving body container, and separation of the machine tool machining waste chips and the cutting fluid is achieved.

Utilize high-speed rotatory centrifugal force to realize the solid-liquid separation to lathe processing sweeps and cutting fluid like this, compare the tradition and adopt filter screen or filter vat to rely on the mode of cutting fluid infiltration down to realize the separation, have higher efficiency and better effect. Compared with the separation by adopting a negative pressure type adsorption mode, the separation is easier to realize and the implementation cost is lower.

Preferably, the method is carried out by using a separation apparatus having the following structure. The separation equipment comprises a machine shell, wherein a vertically arranged main shaft is arranged on the machine shell, the lower part of the main shaft is in transmission connection with a motor, a bowl-shaped rotating disc is fixedly arranged above the main shaft, the opening direction of the rotating disc is upward, the axis of the lower end of the rotating disc is fixedly connected with the main shaft, a circle of screen is fixedly and upwardly connected to the edge of an opening at the upper end of the rotating disc, a waste chip accommodating space is formed on the machine shell at the upper end of the screen, a waste chip outlet is formed in the outer side wall of the waste chip accommodating space, a cutting fluid outflow space is formed in the machine shell below the screen by the screen and the rotating disc in an isolation mode, and a cutting fluid outlet is formed in the side wall of the lower part of the cutting fluid outflow space; and a feed inlet is formed in the top wall of the waste chip accommodating space and is opposite to the middle of the rotating disc.

Thus, when the separation device is used, machining cutting waste scraps fall into the rotating disc together with the cutting fluid from the feeding port. The rotating disc is driven by a motor to rotate, and drives the entering materials to scatter and move outwards and upwards along the peripheral wall of the rotating disc under the action of centrifugal force. When the materials pass through the position of the screen, the cutting fluid is out of the screen under the action of centrifugal force and is thrown into a cutting fluid outflow space to realize separation, and the rest cutting waste chips are thrown out of the upper end of the screen, enter a waste chip accommodating space and are finally discharged from a waste chip outlet. Therefore, the centrifugal separation device realizes the separation of the cutting waste chips and the cutting fluid by using a centrifugal filtering mode realized by the screen, and has the advantages of simple structure, convenience in control, rapidness, high efficiency and good separation effect.

Furthermore, a circle of fan blades is fixedly connected to the upper end of the screen.

Therefore, when the device works, the fan blades generate an outward rotating wind flow to better drive the materials in the rotating disc to move outwards and upwards. Meanwhile, the fan blade generates a rotating air flow in the waste chip accommodating space, so that the separated waste chips are more favorably concentrated and discharged from the waste chip outlet.

Further, the whole cylinder that is of casing, the main shaft is vertical to be set up in casing axis position, sweeps accommodation space wholly is circular in circumference.

Like this, can better utilize the space, it is simultaneously more convenient to form rotatory wind current effect in the sweeps accommodation space.

Furthermore, a drainage plate is obliquely arranged in the casing below the rotating disk, the lower end of the drainage plate is connected with the lower end of the cutting fluid outlet, a space for the spindle to penetrate through is reserved in the middle of the drainage plate, and a rotary sealing structure is arranged between the drainage plate and the spindle.

In this way, the collection and downflow of the cutting fluid can be better facilitated.

Furthermore, the lower end of the machine shell is provided with a platy supporting platform, a downward fixing supporting leg is arranged on the outer side of the lower end of the supporting platform, one side of the supporting platform horizontally extends out of the machine shell and is provided with the motor, the motor is vertically arranged, a motor shaft extends downwards and rotatably penetrates out of the lower portion of the supporting platform, and the lower end of the main shaft penetrates out of the lower portion of the supporting platform through a dynamic seal matching structure and is connected with the motor shaft in a transmission mode through a belt mechanism which is horizontally arranged.

Therefore, the motor can be more conveniently installed and fixed, the belt transmission mechanism and the motor can be conveniently protected, and the multilayer partition can well prevent the motor and the belt mechanism from being corroded by leached cutting fluid.

Furthermore, the lower ends of the fixed support legs are provided with idler wheels, and one side of each idler wheel is also provided with a movable support leg capable of lifting in parallel.

Therefore, the equipment can be pushed by the roller to be conveniently moved, and can be fixed by the movable support legs extending downwards after being moved in place. Wherein the liftable activity stabilizer blade relies on a pair of vertical setting and screw-thread fit's threaded rod and screw thread section of thick bamboo to realize lift adjustment, and wherein the screw thread section of thick bamboo can upwards be fixed to supporting platform or fixed stabilizer blade on, a chassis improvement support stability can be connected to the threaded rod lower extreme.

Furthermore, a material receiving disc is arranged above the material feeding port in an upward connection mode. This is more favorable to the input of material.

Furthermore, a guide cylinder is arranged on the top wall of the scrap accommodating space at the lower end of the feed opening downwards, the guide cylinder is in a frustum shape with a small diameter end downwards, the large diameter end is larger than the diameter of the feed opening, and the small diameter end of the guide cylinder is arranged right at the bottom of the rotating disc.

Therefore, when the materials fall into the device from the machine tool, the materials are thrown in a parabola mode, and after the materials are thrown in from the feeding port, the guiding barrel can better receive the materials and guide the materials to fall into the center of the rotating disc.

Alternatively, the upper end of the guide cylinder is fixed with the top wall of the waste chip containing space, and the lower end of the guide cylinder is arranged in a suspended manner. Thus, the structure is simple and the installation is convenient.

As a better option, the upper end of the guide cylinder and the top wall of the waste chip containing space are arranged in a spaced or rotating fit mode, and the lower end of the guide cylinder is fixed through the connecting frame and the rotating disc.

Therefore, when the material falls, the cutting scraps are often mixed with cutting fluid to form clusters and fall into the device, so that the cutting scraps are thrown out after being dispersed, and the filtering effect is greatly reduced. The guide cylinder is arranged on the rotating disk, and during work, the guide cylinder rotates along with the rotating disk, and materials enter the feed opening and are driven by the guide cylinder to generate a rotating trend after contacting with the guide cylinder, and well scattered and dispersed and then fall into the bottom of the rotating disk. Then can better disperse outward along the periphery in the rotating disc, thereby greatly improving the dehydration and filtration effect of the device. The defect that the filtering effect of the water is poor due to the fact that the material scraps are thrown away after being dispersed is avoided, and the material scraps are mixed with the cutting fluid and fall into the rotating disc in a cluster mode. Further, the link includes along several connecting rods of circumference evenly distributed, and connecting rod one end and guide section of thick bamboo outside middle part rigidity, the other end and rotary disk upper end border rigidity. In this way, the guide cylinder can be fixed better, and the influence on the material is reduced as much as possible.

Furthermore, the inner wall of the guide cylinder is provided with guide plates at even intervals along the circumferential direction, and the lower ends of the guide plates are obliquely arranged along the rotation direction of the guide cylinder.

Like this, the guide board can break up the material better and fall into in the rotary disk, and then improves solid-liquid separation's filter effect better.

Further, the guide plates on the guide cylinder are provided with a plurality of layers along the height direction, and the guide plates on each layer are arranged in a staggered mode.

Make the material when falling into second floor guide board along with last layer guide board like this, by on two at least guide boards of forced separation, improve the dispersion effect to the material better. Preferably, the upper end of the guide plate of the next layer is inserted into a part of the height area of the guide plate of the previous layer. This can make the material disperse by force better when getting into next layer guide board.

Furthermore, several partition plates which are vertically arranged from bottom to top are uniformly distributed on the inner side of the peripheral wall of the rotating disc along the circumferential direction.

Like this, when the volume of falling into the material is more abundant, the baffle also can play the effect of better scattering the material, is favorable to improving solid-liquid separation effect.

Furthermore, the peripheral wall of the rotating disk is provided with a filtering hole. The rotating disc and the screen form a secondary filtering structure together, the materials can be filtered for the first time on the circumferential wall of the rotating disc, and then are filtered for the second time through the screen, so that the solid-liquid separation effect is greatly improved.

Furthermore, the peripheral wall of the rotating disk is provided with a drainage groove, the drainage groove comprises a main groove and branch grooves, the main groove is located at the root part of one side of the rotating direction opposite to the partition board, the branch grooves are obliquely and mutually spaced and are arranged in the area between the adjacent partition boards of the rotating disk, one end of each branch groove inclines outwards and forwards along the rotating direction of the rotating disk and is connected with the main groove, and the filter holes are formed in the drainage groove.

The setting of drainage groove structure can guide the cutting fluid to assemble the flow through the drainage groove well like this, collects the trunk groove from each branch trunk groove to discharge through the filtration pore in this process, greatly improved the filter effect.

Furthermore, one side of the branch groove of the drainage groove close to the outer upper part is provided with a horizontal wall, and the other side is provided with an inclined wall.

So that the cutting fluid which outwards crosses the drainage groove can be thrown back inwards by the horizontal side wall, thereby greatly avoiding the filtering fluid from crossing the drainage groove to continue flowing outwards, and the inclined wall at the other side is more beneficial to the flowing of the filtering fluid into the groove.

Furthermore, a plurality of upright posts are vertically and upwards arranged in the area, right facing the feeding port, of the bottom of the rotating disc, and the upright posts are arranged at intervals.

Part like this from the dog-house throw-in cluster becomes the crumb form sweeps, when falling into the rotary disk from the dog-house centre position, can strike the stand earlier to scattered the dispersion by the stand, avoid the material to pile up to throw away and lead to reducing the filter effect better.

Further, the stand can be installed and set up by the rotation.

Therefore, the material scraps can be better prevented from being entrained and entangled by the upright posts.

Further, the height of the upright posts is sequentially reduced along the center of the rotating disc outwards.

Therefore, the waste scraps clustered into the clusters fall into the middle of the feed opening and then impact the top end surface of the conical stand column, part of the materials are reversely impacted and thrown out by the top of the stand column, and part of the materials are thrown forwards through the intervals between the stand columns and are shunted through the intervals between the stand columns, so that the materials can be better dispersed, and the filtering effect is improved.

Furthermore, the upright post is fixed on an installation disc, and the installation disc and the rotating disc are detachably installed.

Thus, when part of the waste cuttings are in a long-strip-shaped structure, the mounting disc and the stand column can be detached, and winding is avoided.

Furthermore, the whole screen cloth is vertical cylindric, and its upper end is provided with outside turn-ups and is used for installing the fan blade.

Like this, the screen cloth of straight tube-shape can avoid the cutting fluid to cross the screen cloth outflow easily, does benefit to more and improves the filter effect to the cutting fluid.

In conclusion, the invention is used for separating machining cutting waste chips from cutting fluid, and has the advantages of simple implementation, convenient control, rapidness, high efficiency, good separation effect and the like.

Drawings

Fig. 1 is a schematic structural view of a separation apparatus used in embodiment 1 of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a right sectional view of fig. 1.

Fig. 4 is an enlarged schematic view of a part of the structure at the circle in fig. 3.

Fig. 5 is a schematic sectional view showing the separation apparatus used in example 2 of the present invention.

FIG. 6 is a schematic view of the structure of the drainage grooves on the rotating disk, which are shown separately, in the separation apparatus used in example 2 of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example 1:

Specifically, this embodiment 1 is implemented by using the separation apparatus shown in fig. 1 to 4. The separation equipment comprises a machine shell 1, wherein a spindle 2 which is vertically arranged is arranged on the machine shell 1, the lower part of the spindle 2 is in transmission connection with a motor 3, a bowl-shaped rotating disc 4 which is integrally arranged above the spindle 2 is fixedly arranged, the opening direction of the rotating disc 4 is upward, the axis of the lower end of the rotating disc is fixedly connected with the spindle, the opening edge of the upper end of the rotating disc is fixedly and upwardly connected with a circle of screen 5, a waste chip accommodating space 6 is formed on the machine shell at the upper end of the screen 5, a waste chip outlet 7 is formed in the outer side wall of the waste chip accommodating space 6, a cutting fluid outflow space 8 is formed in the machine shell below the screen 5 by being isolated by the screen and the rotating disc, and a cutting fluid outlet 9 is formed in the lower side wall of the cutting fluid outflow space 8; a feed inlet 10 is arranged on the top wall of the waste chip containing space and is opposite to the middle part of the rotating disc.

In this embodiment, the upper end of the screen 5 is fixedly connected with a circle of fan blades 11.

The whole casing 1 is cylindrical, the spindle 2 is vertically arranged on the axis of the casing, and the scrap accommodating space is circular in the circumferential direction.

Wherein, the oblique wall is provided with a drainage plate 12 in the casing below the rotary disk 4, the lower end of the drainage plate 12 links up with the lower end of the cutting fluid outlet 9, the middle part of the drainage plate 12 leaves the space for the main shaft to pass through and a rotary sealing structure is arranged between the main shaft and the space.

Wherein, the casing lower extreme is provided with platelike supporting platform 13, and supporting platform 13 lower extreme outside sets up decurrent fixed stabilizer blade, and supporting platform 13 one side level extends the casing and installs supporting platform 13 below, the vertical installation of motor and motor shaft downwardly extending rotationally wear out supporting platform 13, the main shaft lower extreme is worn out the supporting platform below through the dynamic seal cooperation structure and is relied on belt mechanism 14 and the motor shaft transmission that the level set up to be connected.

Wherein, the lower end of the fixed support leg is provided with a roller 15, and one side of the roller 15 is also provided with a movable support leg 16 capable of lifting in parallel.

Wherein, a receiving tray 17 is connected and arranged above the feeding port. This is more favorable to the input of material.

Wherein, be provided with a guide cylinder 18 on the sweeps accommodation space roof of dog-house 10 lower extreme downwards, guide cylinder is the downward frustum of little diameter end form, and major diameter end is greater than the dog-house diameter, and guide cylinder minor diameter end is just setting up to the set of rotating disc bottom.

In this embodiment, the upper end of the guide cylinder 18 is fixed to the top wall of the waste holding space 6, and the lower end is suspended. Thus, the structure is simple and the installation is convenient.

In this embodiment, several partition plates 19 vertically arranged from bottom to top are uniformly distributed along the circumferential direction inside the circumferential wall of the rotating disk 4.

In this embodiment 1, the whole screen 5 is vertical cylindric, and its upper end is provided with outside turn-ups and is used for installing the fan blade.

Embodiment 2, with reference to fig. 5 and 6, embodiment 2 differs from embodiment 1 only in that the following structure is added to the separation apparatus used: the upper end of the guide cylinder 18 is arranged in a spaced or rotating fit with the top wall of the waste chip accommodating space 6, and the lower end of the guide cylinder 18 is fixed with the rotating disk 4 through a connecting frame 21.

Therefore, when the material falls, the cutting scraps are often mixed with cutting fluid to form clusters and fall into the device, so that the cutting scraps are thrown out after being dispersed, and the filtering effect is greatly reduced. The guide cylinder is arranged on the rotating disk, and during work, the guide cylinder rotates along with the rotating disk, and materials enter the feed opening and are driven by the guide cylinder to generate a rotating trend after contacting with the guide cylinder, and well scattered and dispersed and then fall into the bottom of the rotating disk. Then can better disperse outward along the periphery in the rotating disc, thereby greatly improving the dehydration and filtration effect of the device. The defect that the filtering effect of the water is poor due to the fact that the material scraps are thrown away after being dispersed is avoided, and the material scraps are mixed with the cutting fluid and fall into the rotating disc in a cluster mode.

In embodiment 2, the connecting frame 21 includes a plurality of connecting rods uniformly distributed along the circumferential direction, one end of each connecting rod is fixed to the middle of the outer side of the guide cylinder, and the other end of each connecting rod is fixed to the upper end edge of the rotating disk. In this way, the guide cylinder can be fixed better, and the influence on the material is reduced as much as possible.

In embodiment 2, the guide plates 22 are provided on the inner wall of the guide cylinder 18 at regular intervals in the circumferential direction, and the lower ends of the guide plates 22 are provided obliquely in the direction of rotation of the guide cylinder.

In embodiment 2, the guide plates 22 on the guide cylinder 18 are arranged in multiple stages in the height direction, and the guide plates are arranged in a staggered manner.

In example 2, the peripheral wall of the rotating disk was provided with filtration pores 23. The rotating disc 4 and the screen together form a secondary filtering structure, materials can be filtered for the first time on the peripheral wall of the rotating disc, and then are filtered for the second time through the screen, so that the solid-liquid separation effect is greatly improved.

The peripheral wall of the rotating disk 4 is provided with a drainage groove 24, the drainage groove 24 comprises a main groove 25 which is positioned at the root part of one side of the partition board opposite to the rotating direction and a branch groove 26 which is obliquely and mutually spaced and arranged in the area between the adjacent partition boards of the rotating disk, one end of the branch groove inclines outwards and forwards along the rotating direction of the rotating disk and is connected with the main groove, and the filter hole 23 is arranged in the drainage groove 24. Drainage channels and filter openings are not shown in FIG. 5, see FIG. 6.

Wherein, one side of the branch groove of the drainage groove 24 close to the outer upper part is provided with a horizontal wall, and the other side is provided with a slope wall.

Wherein, the bottom position of the rotating disk 4 is provided with a plurality of upright posts 27 vertically upwards in the area right facing the feeding port, and the upright posts are arranged at intervals.

Wherein, the upright post 27 can be installed and arranged in a rotating way.

Wherein, the height of the upright post 27 is sequentially reduced along the center of the rotating disk outwards.

In this embodiment 2, the upright posts 27 are fixed on a mounting plate, and the mounting plate and the rotating plate are detachably mounted.

Claims

1. A feeding structure of machine tool machining waste chip separation equipment comprises a bowl-shaped rotating disk, wherein the rotating disk is fixedly arranged above a spindle of a centrifugal cutting waste chip separator, the opening direction of the rotating disk is upward, the axis of the lower end of the rotating disk is fixedly connected with the spindle, the edge of an opening at the upper end of the rotating disk is fixedly and upwardly connected with a circle of screen, a waste chip accommodating space is formed on a casing at the upper end of the screen, and a feeding port is formed in the top wall of the waste chip accommodating space, right opposite to the middle position of the rotating disk; the scrap accommodating device is characterized in that a guide cylinder is arranged on the top wall of the scrap accommodating space at the lower end of the feed opening downwards, the guide cylinder is in a frustum shape with a small diameter end downwards, the large diameter end is larger than the diameter of the feed opening, and the small diameter end of the guide cylinder is arranged right at the bottom of the rotating disc.

2. The feeding structure of a machine tool machining scrap separating apparatus in accordance with claim 1 wherein the upper end of the guide cylinder is disposed in spaced or rotating engagement with the top wall of the scrap accommodating space, and the lower end of the guide cylinder is fixed to the rotary plate by means of the coupling frame.

3. The feeding structure of a machine tool machining scrap separating apparatus according to claim 2, wherein the guide plates are provided on the inner wall of the guide cylinder at regular intervals in the circumferential direction, and the lower ends of the guide plates are arranged obliquely in the direction of rotation of the guide cylinder.

4. The feeding structure of a machine tool machining scrap separating apparatus according to claim 3, wherein the guide plates on the guide cylinder are provided in plural layers in the height direction, and the guide plates on each layer are arranged in a staggered manner.

5. The feeding structure of the machine tool machining scrap separating apparatus according to claim 1, wherein a receiving tray is connected upward above the feeding port.

6. The feeding structure of a machine tool machining scrap separating apparatus according to claim 1, wherein a plurality of columns are vertically and upwardly provided in a region of the bottom of the rotating plate facing the feeding port, the columns being spaced from each other.

7. The feeding structure of machine tool machining scrap separating apparatus in accordance with claim 6 wherein said column is rotatably mounted.

8. The feeding structure of a machine tool machining scrap separating apparatus in accordance with claim 7 wherein the height of said vertical posts is set lower in sequence outwardly of the center of the rotating disk.

9. The feeding structure of a machine tool machining scrap separating apparatus in accordance with claim 7 wherein said post is fixed to a mounting plate and the rotating plate are removably mounted.

10. The feeding structure of the machine tool machining scrap separation apparatus according to claim 1, wherein a plurality of partition plates vertically arranged from bottom to top are uniformly distributed on the inner side of the peripheral wall of the rotating disc along the circumferential direction;

the peripheral wall of the rotating disc is provided with a filtering hole;

the peripheral wall of the rotating disc is provided with a drainage groove, the drainage groove comprises a main groove and branch grooves, the main groove is positioned at the root part of one side, opposite to the rotating direction, of the partition board, the branch grooves are obliquely and mutually spaced and are arranged in the area between the adjacent partition boards of the rotating disc, one end of each branch groove is inclined outwards and forwards along the rotating direction of the rotating disc and is connected with the main groove, and the filter holes are arranged in the drainage grooves;

the whole screen cloth is vertical cylindric, and its upper end is provided with outside turn-ups and is used for installing the fan blade.