CN106181567B - Cutting oil and chip high efficiente callback device - Google Patents

Abstract

The present invention provides cutting oil and chip high efficiente callback device, belongs to machine processing field, also belongs to mechanical processing environmental protection equipment, chip processing, recycling suitable for mechanical processing process, and accordingly cuts oil processing, recycling.Described device includes the oily primary filter of rack-mounted cutting, chip transmission device, high extruding chip into block assembly and chip block ejecting mechanism.The present invention there is the chip transmission device of vertically and horizontally pre- crowded screw mechanism feature, anti-chip to generate the anti-wrap device of accumulation and winding, height squeezes chip into block assembly and chip block ejecting mechanism using the primary filter of initial gross separation cutting oil and chip.The present invention has the characteristics that integrate that cutting oil is detached with chip and chip briquetting is handled, it removes to quick and convenient chip and high extruding chip is blocking, achieve the purpose that high efficiente callback cutting oil and chip, it is both cost-effective in process of production or reduce pollution to environment.

Description

Cutting oil and chip high efficiente callback device

Technical field

The present invention cuts the technical field of environment protection equipment of oil processing and recycling, and in particular to cutting oil and chip high efficiente callback Device.

Background technology

For machining with the generation of chip, amount is big and fluffy, and cutting also needs to lubrication or cooling, companion in some occasions With the use of coolant or cutting oil, for example, gun drilling（The ratio ＞ 5 of hole depth and aperture）It is a kind of common technology, in machine Occupy extremely important status in tool processing, account for about 40% or more hole machined amount, with a large amount of cuttings oily use and a large amount of chips It generates.Cutting oil and chip can become the primary pollution source of factory, if oil droplet can corrode cement flooring, drop without rationally handling Low land face bearing capacity and service life；Wet and slippery ground influences working efficiency, influences production safety.Cutting oil and chip are effectively and just Profit processing, often a thorny problem.

It is the separation of cutting oil and chip first.Traditionally, using filters such as filter screens, make cutting oil along metal mesh stream Go out, chip stays in filter screen.Also have using the method dried, realize the separation of cutting oil and chip.But these processing are also deposited Process problem after isolation, mainly oily recycling especially remain in the recycling of cutting oil and fluffy chip in chip Processing and recycling.Traditionally, frequently with independent processing unit, distinguish the processing of recycling and the chip of processing cutting oil, In frequently involve chip removal processing and fluffy chip extruding it is blocking.Cutting oil and chip high efficiente callback problems with are people Focus of attention：1, the convenient of chip removes and reduces respective handling cost, time and efficiency after detaching；2, chip memory There is effective recycling of a large amount of cutting oil and reduces cost, reduces environmental pollution；3, fluffy chip being effectively treated and recycles.

Invention content

The present invention is directed to the focal issue of above-mentioned cutting oil and chip high efficiente callback, proposes that a kind of cutting is oily and chip is efficient Retracting device efficiently separates cutting oil and chip, removes to quick and convenient chip, height extruding chip is blocking, reaches high efficiente callback The purpose of cutting oil and chip, it is both cost-effective in process of production or reduce pollution to environment.

In order to meet the purpose of above-mentioned high efficiente callback cutting oil and chip, the technical solution adopted by the present invention is as follows.

Cutting oil and chip high efficiente callback device comprising the oily primary filter of rack-mounted cutting, chip Transmission device, high extruding chip are at block assembly and chip block ejecting mechanism；

The oily primary filter of cutting, for receiving chip and the oily mixture of cutting, tentatively by chip and cutting oil mixing Body cutting oil filtering therein；

Chip transmission device squeezes chip into block assembly for height to be sent into preliminary filtered chip；

Height squeezes chip at block assembly, for preliminary filtered chip to be squeezed out the surplus oil of chip；

Chip block ejecting mechanism is released for the chip block after squeezing high extruding chip at block assembly.

Further, chip and the oily mixture of cutting tentatively will after the cutting oil primary filter in rack is sent into Chip and the oily mixture of cutting cutting oil therein filter, and the chip after primary filter is sent into high squeeze through chip transmission device and is cut Consider into block assembly to be worth doing, height squeezes chip and remains oil at block assembly extrusion chip and height is squeezed the release of chip block, and chip therebetween transmits dress Anti-wrap device has been installed for preventing chip transmit process from blocking；The cutting oil and chip high efficiente callback device collection cutting oil Filtering and chip briquetting squeeze recycling and are integrated, and the recycling of cutting oil squeezes the surplus oily recycling side of chip using primary filter recycling with high Formula, chip recycling squeeze chip blocking manner using high, and chip is effectively transmitted and squeezes chip into block assembly into height, has been squeezed Cheng Houzai is released through chip block ejecting mechanism.

Further, it includes receiving hopper, porous metals container and cutting oil recycling runner to cut oily primary filter, is connect Hopper is connected with porous metals container, is cut oil recycling runner and is located at below porous metals container, the chip being sent into from receiving hopper It is filtered through porous metals container with the oily mixture of cutting, by cutting oil recycling runner recycling cutting oil；Through at the beginning of porous metals container The filtered chip of grade waits for the pre- crowded screw mechanism of longitudinal direction transmission in chip transmission device to be sent into height and squeezes chip into block assembly In.

Further, the high extruding chip includes high-pressure extrusion oil cylinder, crowded oily axis, extrusion chamber, crush-cutting at block assembly Prostitute squeezes bushing, assisted extrusion set and squeezes oil baffle；Assisted extrusion covers and assisted extrusion set is located in extrusion chamber, squeezes Pressure bushing is located at one end of assisted extrusion set, and high-pressure extrusion oil cylinder, crowded oily axis, crush-cutting prostitute are sequentially connected, in high-pressure extrusion oil Under the driving of cylinder, the chip from chip transmission device is sent to pre-extrusion in extrusion chamber by squeezing oily axis, passes through high pressure The high pressure of extrusion oil cylinder acts on the chip high-pressure extrusion that will be sent in extrusion chamber into chip block, while squeezing out and being included in chip Interior surplus oil.

Further, chip transmission device includes longitudinal pre- crowded screw mechanism, chip transmission device of transmitting including longitudinal pre- Axis, the pre- crowded screw mechanism of longitudinal transmission, lateral pre-extrusion axis, the pre- crowded screw mechanism of cross drive and anti-wrap device are squeezed, is indulged It is connect to pre-extrusion axis one end with longitudinal pre- crowded screw mechanism of transmission, the other end is connect with the first micro motor；Lateral pre-extrusion Axis one end is connect with the pre- crowded screw mechanism of cross drive, and the other end is connect with micro motor, wherein longitudinal transmit pre- crowded screw machine Spatially at the interaction angle of setting, the movement of mutual spiral rotating, which is constituted, matches for structure and the pre- crowded screw mechanism of cross drive Conjunction relationship makes the chip portion after primary filter be sent into extrusion chamber by longitudinally transmitting pre- crowded screw mechanism, partly via vertical To the rotary interaction for transmitting pre- crowded screw mechanism and the pre- crowded screw mechanism of cross drive, shaping is carried out to chip and is then fed into In extrusion chamber.

Further, there is the anti-wrap device in chip transmission device a rotary swinging arm, rotary swinging arm to be transmitted with longitudinal Pre- crowded screw mechanism and the pre- crowded screw mechanism of cross drive match impact to exclude to be detained or accumulate chip, the winding of anti-bits.

Further, chip block ejecting mechanism is made of oil baffle drive cylinder, oil baffle drive shaft, extruding oil baffle, It squeezes one end that oil baffle is located at extrusion chamber and squeezes oil baffle in oil baffle when height squeezes chip into block assembly extruding chip Drive cylinder and oil baffle drive shaft effect lower closing after the completion of extruding, squeeze oil baffle in oil baffle drive cylinder and gear oil The effect of plate drive shaft is lower to open, and releases and squeezes chip；Chip block ejecting mechanism use hydraulic driving mode, with height squeeze chip at Block assembly fits through control device and releases the blocking chip of height extruding automatically.

Compared with prior art, the invention has the advantages that and technique effect：

Present invention mainly solves the oil bits separation of cutting oil and chip high efficiente callback process, chip removing cost and efficiency, The surplus oily high efficiente callback of chip, chip height squeeze the focal issues such as blocking.The present invention is oily first with chip using initial gross separation cutting There is grade filter device the chip transmission device of vertically and horizontally pre- crowded screw mechanism feature, anti-chip to generate accumulation and wind anti- Wind, height squeeze chip into block assembly and chip block ejecting mechanism.The present invention have collection cutting oil detached with chip and The characteristics of processing of chip briquetting is integrated, removes to quick and convenient chip and high extruding chip is blocking, reaches high efficiente callback cutting The purpose of oil and chip, it is both cost-effective in process of production or reduce pollution to environment.

Description of the drawings

Fig. 1 is cutting oil and chip high efficiente callback structure drawing of device.

Fig. 2 is the partial structural diagram of device as shown in Figure 1.

Fig. 3 is the vertical view of Fig. 2 shown device structures.

In figure：The longitudinal directions 1- pre-extrusion axis, 2- receiving hoppers, 3- transverse direction pre-extrusion axis, 4- squeeze bushing, 5- squeezes oil baffle, 6- extrusion chambers, 7- assisted extrusions set, 8- crush-cuttings prostitute, 9- squeeze oily axis, 10- high-pressure extrusions oil cylinder, 11- porous metals container, 12- longitudinally transmits pre- crowded screw mechanism, the pre- crowded screw mechanism of 13- cross drives, 14- anti-wrap devices, 15- oil baffles driving oil Cylinder, 16- oil baffles drive shaft, 17- cutting oil recycling runner, the first micro motors of 18-, the second micro motors of 19-.

Specific implementation mode

Below in conjunction with specific embodiment, the invention will be further described, but the protection and implementation of the present invention are not limited to This is that those skilled in the art can refer to prior art realization if place is not described in detail especially it is noted that having below 's.

Such as Fig. 1 ~ Fig. 3, the cutting oil and chip high efficiente callback device of this example, including rack-mounted cutting oil are first Grade filter device, chip transmission device, high extruding chip are at block assembly and chip block ejecting mechanism；

The oily primary filter of cutting, for receiving chip and the oily mixture of cutting, tentatively by chip and cutting oil mixing Body cutting oil filtering therein；Chip transmission device squeezes chip into block assembly for height to be sent into preliminary filtered chip； Height squeezes chip at block assembly, for preliminary filtered chip to be squeezed out the surplus oil of chip；Chip block ejecting mechanism, being used for will be high The chip block after chip is squeezed at block assembly is squeezed to release.

Such as Fig. 1 or Fig. 2, it includes receiving hopper 2, porous metals container 11 and cutting oil recycling stream to cut oily primary filter Road 17, receiving hopper 2 and porous metals container 11 connect, and cut oil recycling runner 17 and are located at below porous metals container 11, from connecing The oily mixture of chip and cutting that hopper 2 is sent into is filtered through porous metals container 11, by the cutting oil recycling recycling cutting of runner 17 Oil；Chip after 11 primary filter of porous metals container waits for the longitudinal direction in chip transmission device to transmit pre- crowded screw mechanism 12 are sent into high extruding chip in block assembly.It is described it is high squeeze chip at block assembly include high-pressure extrusion oil cylinder 10, squeeze oily axis 9, Extrusion chamber 6, crush-cutting prostitute 8 squeeze bushing 4, assisted extrusion set 7 and squeeze oil baffle 5；Assisted extrusion set 7 and assisted extrusion Set 7 is located in extrusion chamber 6, squeezes one end that bushing 4 is located at assisted extrusion set 7, and high-pressure extrusion oil cylinder 10 squeezes oily axis 9, crush-cutting Prostitute 8 is sequentially connected, and under the driving of high-pressure extrusion oil cylinder 10, will be passed from the chip of chip transmission device by squeezing oily axis 9 It send to pre-extrusion in extrusion chamber 6, it is by the high pressure effect of high-pressure extrusion oil cylinder 10 that the chip being sent in extrusion chamber 6 is high It is pressed into chip block, while squeezing out to be included in chip and remaining oil.

Chip transmission device includes longitudinal pre-extrusion axis 1, the pre- crowded screw mechanism 12 of longitudinal transmission, lateral pre-extrusion axis 3, cross To pre- crowded screw mechanism 13 and anti-wrap device 14 is transmitted, pre- crowded screw mechanism 12 is transmitted in longitudinal 1 one end of pre-extrusion axis with longitudinal Connection, the other end are connect with the first micro motor；The pre- crowded screw mechanism of lateral 3 one end of pre-extrusion axis and cross drive 13 is connect, The other end is connect with micro motor, wherein longitudinal pre- crowded screw mechanism 12 and pre- crowded screw mechanism of cross drive 13 of transmitting is in space On at setting interaction angle, mutual spiral rotating movement constitute matching relationship, make the chip portion after primary filter It is sent into extrusion chamber 6 by longitudinally transmitting pre- crowded screw mechanism 12, partly via the pre- crowded screw mechanism 12 of longitudinal transmission and laterally The rotary interaction for transmitting pre- crowded screw mechanism 13 carries out shaping to chip and is then fed into extrusion chamber 6.Chip transmission dress Anti-wrap device 14 in setting has a rotary swinging arm, rotary swinging arm and the pre- crowded screw mechanism 12 of longitudinal transmission and cross drive pre- It squeezes screw mechanism 13 and matches impact to exclude to be detained or accumulate chip, the winding of anti-bits.Chip block ejecting mechanism is driven by oil baffle Dynamic oil cylinder 15, squeezes the composition of oil baffle 5 at oil baffle drive shaft 16, squeezes one end that oil baffle 5 is located at extrusion chamber 6, and height squeezes When chip squeezes chip at block assembly, squeezes oil baffle 5 and act on ShiShimonoseki in oil baffle drive cylinder 15 and oil baffle drive shaft 16 It closes, after the completion of extruding, squeezes oil baffle 5 and opened in the case where oil baffle drive cylinder 15 and oil baffle drive shaft 16 act on, release and squeeze Crush-cutting is considered to be worth doing；Chip block ejecting mechanism uses hydraulic driving mode, and fitting through control device at block assembly with height extruding chip will Height squeezes blocking chip and releases automatically.

In this example, chip and the oily mixture of cutting tentatively will after the cutting oil primary filter in rack is sent into Chip and the oily mixture of cutting cutting oil therein filter, and the chip after primary filter is sent into high squeeze through chip transmission device and is cut Consider into block assembly to be worth doing, height squeezes chip and remains oil at block assembly extrusion chip and height is squeezed the release of chip block, and chip therebetween transmits dress Anti-wrap device 14 has been installed for preventing chip transmit process from blocking；The cutting oil and the cutting of chip high efficiente callback device collection Oil filtering and chip briquetting squeeze recycling and are integrated, and cut oil and recycle using primary filter recycling and the surplus oil recycling of high extruding chip Mode, chip recycling squeeze chip blocking manner using high, and chip is effectively transmitted and squeezes chip into block assembly into height, is squeezed It is released again through chip block ejecting mechanism after the completion.

When above-mentioned apparatus works, receiving hopper 2 accepts cutting oil and chip fluid-mixing, through the oily primary filter point of cutting From oil and bits, thereafter, the chip in chip transmission device position is pre- through the pre- crowded screw mechanism 12 of longitudinal transmission and cross drive It squeezes screw mechanism 13 and is sent into extrusion chamber 6, chip is squeezed into bulk at block assembly through height extruding chip and squeezes out surplus oil, Between, anti-wrap device eliminates the accumulation and winding of chip, is finally released chip block by chip block ejecting mechanism.

This example is using the oily primary filter of this cutting, initial gross separation cutting oil and chip；Chip transmission device will be cut The chip after oily filter is removed is cut to be sent in extrusion chamber；Anti-wrap device prevents chip in chip transmit process from generating accumulation, twining Around the problems such as；High to squeeze chip into block assembly, the cutting oil that will be remained in chip further squeezes out, while fluffy chip is high It is squeezed into blocks；Chip block ejecting mechanism, the automatic chip material that recycles wait for that formality is handled.It is detached with chip with collection cutting oil And chip briquetting handles the characteristics of being integrated, and removes to quick and convenient chip and high extruding chip is blocking, reach high efficiente callback The purpose of cutting oil and chip, it is both cost-effective in process of production or reduce pollution to environment.

Claims (5)

1. cutting oil and chip high efficiente callback device, it is characterized in that including rack-mounted cutting oil primary filter, Chip transmission device, high extruding chip are at block assembly and chip block ejecting mechanism；

The oily primary filter of cutting, for receiving chip and the oily mixture of cutting, tentatively by chip and the oily mixture of cutting its In cutting oil filtering；

Chip transmission device squeezes chip into block assembly for height to be sent into preliminary filtered chip；

Height squeezes chip at block assembly, for preliminary filtered chip to be squeezed out the surplus oil of chip；

Chip block ejecting mechanism is released for the chip block after squeezing high extruding chip at block assembly；

The high extruding chip includes high-pressure extrusion oil cylinder (10), crowded oily axis (9), extrusion chamber (6), crush-cutting prostitute at block assembly (8), bushing (4), assisted extrusion set (7) are squeezed and squeezes oil baffle (5)；Bushing (4) and assisted extrusion set (7) are squeezed positioned at crowded It presses in cavity (6), squeezes one end that bushing (4) is located at assisted extrusion set (7), high-pressure extrusion oil cylinder (10) squeezes oily axis (9), pressure It cuts prostitute (8) to be sequentially connected, under the driving of high-pressure extrusion oil cylinder (10), chip transmission device will be come from by squeezing oily axis (9) Chip be sent to extrusion chamber (6) interior pre-extrusion, extrusion chamber will be sent to by the effect of the high pressure of high-pressure extrusion oil cylinder (10) Chip high-pressure extrusion in body (6) squeezes out to be included in chip and remains oil at chip block；Chip transmission device includes longitudinal pre- Squeeze axis（1）, longitudinal transmit pre- crowded screw mechanism (12), lateral pre-extrusion axis（3）, the pre- crowded screw mechanism (13) of cross drive and Anti-wrap device (14), longitudinal pre-extrusion axis（1）One end is connect with longitudinal pre- crowded screw mechanism (12) of transmission, the other end and first Micro motor connects；Lateral pre-extrusion axis（3）One end is connect with the pre- crowded screw mechanism (13) of cross drive, the other end and miniature horse Up to connection, wherein longitudinal transmit pre- crowded screw mechanism (12) and the pre- crowded screw mechanism (13) of cross drive spatially at setting Interaction angle, the movement of mutual spiral rotating constitute matching relationship, make the chip portion after primary filter by longitudinally transmitting Pre- crowded screw mechanism (12) is sent into extrusion chamber (6), partly transmits pre- crowded screw mechanism (12) and cross drive via longitudinal The rotary interaction of pre- crowded screw mechanism (13) carries out shaping to chip and is then fed into extrusion chamber (6).

2. cutting oil according to claim 1 and chip high efficiente callback device, it is characterized in that：Chip and the oily mixture of cutting After the cutting oil primary filter feeding in rack, tentatively chip and the oily mixture of cutting cutting oil therein are filtered, Chip after primary filter is sent into high extruding chip into block assembly through chip transmission device, and height squeezes chip and cut at block assembly extrusion The surplus oil of bits simultaneously releases height extruding chip block, and chip transmission device is equipped with anti-wrap device (14) for preventing chip from transmitting therebetween Process blocks；The cutting oil and chip high efficiente callback device integrate the filtering of cutting oil and chip briquetting squeezes recycling, cuts It cuts oil to recycle using primary filter recycling and the surplus oily way of recycling of high extruding chip, chip recycling is using the high extruding blocking side of chip Chip is effectively transmitted and squeezes chip into block assembly into height, released again through chip block ejecting mechanism after the completion of squeezing by formula.

3. cutting oil according to claim 1 and chip high efficiente callback device, it is characterised in that the oily primary filter dress of cutting It sets including receiving hopper (2), porous metals container (11) and cutting oil recycling runner (17), receiving hopper (2) and porous metals container (11) it connects, cuts oil recycling runner (17) and be located at below porous metals container (11), from the chip of receiving hopper (2) feeding and cut It cuts oily mixture to filter through porous metals container (11), cutting oil is recycled by cutting oil recycling runner (17)；Hold through porous metals Chip after device (11) primary filter waits for the pre- crowded screw mechanism (12) of longitudinal direction transmission in chip transmission device to be sent into high squeeze Chip is in block assembly.

4. cutting oil according to claim 1 and chip high efficiente callback device, it is characterised in that in chip transmission device Anti-wrap device (14) has a rotary swinging arm, rotary swinging arm and the pre- crowded screw mechanism (12) of longitudinal transmission and cross drive pre- crowded Screw mechanism (13) matches impact to exclude to be detained or accumulate chip, the winding of anti-bits.

5. cutting oil and chip high efficiente callback device according to claim 1, it is characterised in that chip block ejecting mechanism is by keeping off Oiled-plate method drive cylinder (15), oil baffle drive shaft (16) squeeze oil baffle (5) composition, squeeze oil baffle (5) and are located at extrusion chamber (6) one end squeezes oil baffle (5) in oil baffle drive cylinder (15) and gear when height squeezes chip into block assembly extruding chip Oiled-plate method drive shaft (16) effect is lower to close, and after the completion of extruding, squeezes oil baffle (5) in oil baffle drive cylinder (15) and oil baffle Drive shaft (16) effect is lower to open, and releases and squeezes chip；Chip block ejecting mechanism uses hydraulic driving mode, and chip is squeezed with height Control device is fitted through at block assembly to release the blocking chip of height extruding automatically.