CN216801709U - Novel machine tool waste residue processor - Google Patents

Abstract

The utility model provides a novel machine tool waste residue processor, and belongs to the technical field of waste recycling equipment. It has solved the current problem that does not have the device of retrieving to the lathe waste residue specially. This novel lathe waste residue processor, the lateral part of feeder hopper still is connected with feeding mechanism, the lower part at the feeder hopper is connected to the process chamber, still have rubbing crusher in the process chamber, rubbing crusher in feeder hopper and the process chamber is linked together, the room that gathers materials sets up the lower part at the process chamber, the collecting tank sets up the bottom at the casing that gathers materials, the collecting plate is the rectangular form of U-shaped, a plurality of play liquid hole has still been seted up to the bottom of collecting plate, the casing lateral part that gathers materials still has the discharge gate, the conveyer belt sets up directly over the board that gathers materials, and the conveyer belt is just to discharge gate department, discharge gate department still is equipped with pressing mechanism. The structure has the advantages of small occupied space, low recovery and transportation cost and convenient operation.

Description

Novel machine tool waste residue processor

Technical Field

The utility model belongs to the technical field of waste recycling equipment, and relates to a novel machine tool waste residue processor.

Background

Machine tools are machines for manufacturing machines, also called machine tools or machine tools, which are conventionally called machine tools for short. The waste slag of the machine tool refers to filiform or slag-shaped metal waste which contains cutting fluid and is generated after a lathe uses a turning tool or a milling machine uses a milling cutter to process a part, and the metal waste slag has the characteristics of containing the cutting fluid, soft and fluffy quality and large occupied space. The current market environment-friendly recycling equipment does not have a device specially used for processing and recycling the machine tool waste residue.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provide a novel machine tool waste residue processor which is compact in structure and high in stability, metal waste containing cutting fluid can be crushed by a crushing mechanism, and the cutting fluid can be collected in a liquid collecting tank at the bottom of an aggregate shell.

The purpose of the utility model can be realized by the following technical scheme:

a novel machine tool waste residue processor is characterized by comprising a feed hopper, a processing chamber and a collecting chamber, wherein the section of the feed hopper is trapezoidal, the top of the feed hopper is provided with an opening, the side part of the feed hopper is also connected with a feeding mechanism, the processing chamber is connected with the lower part of the feed hopper, the processing chamber is also internally provided with a crushing mechanism, the feed hopper is communicated with the crushing mechanism in the processing chamber, the collecting chamber is arranged at the lower part of the processing chamber, the collecting chamber also comprises a collecting shell, a conveying belt, a filtering screen, a liquid collecting tank and a collecting plate, the conveying belt, the filtering screen, the liquid collecting tank and the collecting plate are arranged in the collecting shell, the liquid collecting tank is arranged at the bottom of the collecting shell, the collecting plate is in a U-shaped strip shape, the two sides of the U-shaped collecting plate are clamped and embedded at the two sides of the top of the collecting shell, the bottom of the collecting plate is also provided with a plurality of liquid outlet holes, the side part of the collecting shell is also provided with a discharge hole, the conveyer belt sets up directly over the flitch that gathers materials, and the conveyer belt is just to discharge gate department, discharge gate department still is equipped with pressing mechanism.

Feeding metal waste containing cutting fluid generated by lathe cutting into a feeding hopper through a feeding mechanism at the side part of the feeding hopper, wherein the feeding hopper can store a large amount of machine tool cutting waste, the metal waste can be stirred and crushed through a crushing mechanism in a treatment chamber at the lower part of the feeding hopper, the crushed metal waste flows down to a conveying belt on a U-shaped collecting plate under the action of gravity, the conveying belt extends out of a discharge port, a pressing mechanism is arranged under the conveying belt extending out of the discharge port so as to separate the metal waste containing the cutting fluid, the metal waste can be output through the conveying belt, the cutting fluid finally flows into a liquid collecting tank at the bottom of an aggregate shell, the metal waste containing the cutting fluid is firstly fed into the feeding hopper through the conveying mechanism, then is stirred and crushed through the crushing mechanism, and finally the crushed metal waste containing the cutting fluid is separated, in metal waste passed through the conveyer belt and is carried the pressing mechanism to the discharge gate department of the casing lateral part that gathers materials, cutting fluid is gathered in the collecting tank of the casing bottom that gathers materials, is exported the metal waste in the pressing mechanism, is massive metal waste piece through pressing mechanism with the metal waste pressfitting, and the metal waste occupation space after advancing the compression is little, retrieves and the cost of transportation is low, convenient operation.

In foretell a novel lathe waste residue processor, rubbing crusher constructs still including the axis of rotation of four parallel arrangement in the processing chamber and the driver of setting in the casing outside that gathers materials, still have a plurality of helical cutting knife in the axis of rotation, helical cutting knife sets up adjacent two along the length direction equipartition of axis of rotation the epaxial helical cutting knife of rotation all staggers the setting, the driver can drive four axis of rotation synchronous relative rotations.

Four equal parallel arrangement of axis of rotation are in the processing chamber, and four axis of rotation can both pass through the driver drive, and the driver can drive four axis of rotation and carry out relative synchronization rotation, and transmission efficiency is high, and stability is good, all has a plurality of helical cutting knife along its length direction setting in four axis of rotation, adjacent two the epaxial helical cutting knife that rotates all crisscross sets up, and a plurality of axis of rotation and a plurality of helical cutting knife are crisscross to be set up, can be further smash the pending metal waste in the feeder hopper, smash effectually, smash efficiently, and stability is strong.

In foretell a novel lathe waste residue processor, the indoor stock guide that still has gathers materials, the quantity of stock guide has two, and two stock guide symmetry settings respectively directly over the conveyer belt, the stock guide all inclines to set up, the one end of stock guide links firmly on the lateral wall of room that gathers materials, and the stock guide other end forms a guide mouth that can make metal waste pass through with the room inner wall that gathers materials.

Two stock guides all set up in the room that gathers materials, stock guide one end that is located the upper portion links firmly at the left side inner wall of room that gathers materials, the other end forms a guide mouth with the room right side inner wall that gathers materials, another stock guide symmetry sets up the below at the stock guide of upper portion, stock guide one end that is located the below links firmly the right side inboard at the room that gathers materials, the other end is just to the conveyer belt, metal waste smashes through rubbing crusher structure, metal waste after smashing passes through the stock guide on upper portion, stock guide through the below, finally by the water conservancy diversion to the conveyer belt on, the water conservancy diversion is effectual, can be with metal waste and cutting fluid separation.

In foretell a novel lathe waste residue processor, feeding mechanism still includes cylinder, cutting off cutter, connecting rod, guide bar and pay-off casing, pay-off casing parallel arrangement is at the lateral part of feeder hopper to link up mutually with the feeder hopper, the quantity of guide bar has two, and two guide bars set up the both sides at the pay-off casing respectively, swing joint is on the guide bar of pay-off casing both sides respectively at the both ends of connecting rod, the cylinder sets up on the upper portion of pay-off casing and is connected with the connecting rod, the quantity of cutting off cutter has a plurality of, and a plurality of cutting off cutter all links firmly on the connecting rod, a plurality of cutting off cutter all sets up along the length direction equipartition of connecting rod.

The cylinder is located the upper portion of pay-off casing, has a plurality of cutting off cutter along its length direction setting on the connecting rod, through the cylinder drive to make the connecting rod along the guide bar up-and-down reciprocating motion of pay-off casing both sides, a plurality of cutting off cutters on the connecting rod can both tentatively cut off the metal waste in the pay-off casing, can cut off great metal waste, can effectually avoid great metal waste to carry to rubbing crusher mechanism department and lead to rubbing crusher mechanism card machine.

In foretell a novel lathe waste residue processor, pressing mechanism still includes pneumatic cylinder, actuating lever, dog, pressfitting casing, the waste material import has still been seted up on the upper portion that the pressfitting casing is rectangular form and pressfitting casing, the waste material import sets up the department at the discharge gate, the pneumatic cylinder links firmly on the pressfitting casing, and the output of pneumatic cylinder is connected with the actuating lever, the dog is the rectangle to inner chamber phase-match with the pressfitting casing, the dog is fixed at the tip of actuating lever, can make actuating lever and dog remove along pressfitting shells inner wall through the pneumatic cylinder drive, the outside of pressfitting casing still has the waste material export.

The metal waste after smashing is carried to discharge gate department through the conveyer belt, and the waste material import is just to discharge gate department, and the metal waste who is carried out has advanced the waste material import and has dropped to the pressfitting casing in, through pneumatic cylinder drive actuating lever, and the end connection of actuating lever has the dog, and the dog of rectangle inwards removes the pressfitting along pressfitting shells inner wall to be massive metal waste with the metal waste pressfitting in the pressfitting casing, be massive metal waste and can follow the waste outlet department and discharge.

In foretell a novel lathe waste residue processor, the spout has all still been seted up to the both sides of the casing that gathers materials, the gyro wheel is still installed to the both sides of collecting plate, the gyro wheel slides and inlays in the spout, the tip of collecting plate still has the handle.

The gyro wheel is still installed to the collecting plate both sides, and collecting plate embedding casing department that gathers materials, and the gyro wheel of collecting plate both sides all inlays in the spout, can take out the collecting plate along the casing that gathers materials through the handle of collecting plate tip.

In the novel machine tool waste residue processor, the discharge port is also provided with a flexible baffle.

The flexible baffle at the discharge gate department can increase the security of ejection of compact, can make the ejection of compact more reliable and more stable simultaneously.

In the novel machine tool waste residue processor, the material collecting chamber and the pressing mechanism are respectively provided with a universal wheel at the bottom.

The universal wheels at the bottom of the material collecting chamber and the pressing mechanism can be moved conveniently.

Compared with the prior art, this novel lathe waste residue processor sends into the metal waste who contains the cutting fluid that the lathe cutting produced to the feeder hopper through the feeding mechanism of feeder hopper lateral part, send into the metal waste who contains the cutting fluid to the feeder hopper again, rethread rubbing crusher constructs and stirs metal waste and smashes, the metal waste separation that contains the cutting fluid after smashing at last, metal waste passes through the conveyer belt and is carried to the pressing mechanism in the discharge gate department of the casing lateral part that gathers materials, the cutting fluid is gathered in the collecting tank of the casing bottom that gathers materials, by the metal waste in the pressing mechanism of output, be massive metal waste piece through pressing mechanism with the metal waste pressfitting, metal waste occupation space after advancing the compression is little, it is low to retrieve and the cost of transportation, and convenient operation.

Drawings

Fig. 1 is a schematic structural diagram of the novel machine tool waste residue processor.

FIG. 2 is a schematic structural diagram of a treatment chamber and a material collecting chamber in the novel machine tool waste residue processor.

Fig. 3 is a schematic structural diagram of a feeding mechanism in the novel machine tool waste residue processor.

Fig. 4 is a schematic structural diagram of a press joint in the novel machine tool waste residue processor.

Fig. 5 is a schematic diagram of the overall structure of the novel machine tool waste residue processor.

In the figure, 1, feed hopper: 2. a processing chamber: 3. a material collecting chamber: 4. a feeding mechanism: 5. and (3) a pressing mechanism: 6. a crushing mechanism: 7. aggregate casing: 8. conveying a belt: 9. collecting a plate: 10. A filter screen: 11. a liquid collecting tank: 12. a discharge port: 13. a driver: 14. rotating shaft: 14a, a helical cutter; 15. a material guide plate: 15a, a material guide port; 16. feeding a shell: 17. a cylinder: 18. a guide rod: 19. connecting rods: 20. cutting off the cutter: 21. pressing the shell: 22. hydraulic cylinder: 23. driving rod: 24. a stop block: 25. waste material import: 26. a chute: 27. roller: 28. a universal wheel.

Detailed Description

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the novel machine tool waste residue processor comprises a feed hopper 1, a processing chamber 2 and a material collecting chamber 3, wherein the cross section of the feed hopper 1 is trapezoidal, the top of the feed hopper 1 is provided with an opening, the side part of the feed hopper 1 is also connected with a feeding mechanism 4, the processing chamber 2 is connected with the lower part of the feed hopper 1, a crushing mechanism 6 is also arranged in the processing chamber 2, the feed hopper 1 is communicated with the crushing mechanism 6 in the processing chamber 2, the material collecting chamber 3 is arranged at the lower part of the processing chamber 2, the material collecting chamber 3 further comprises a material collecting shell 7, a conveying belt 8 arranged in the material collecting shell 7, a filter screen 10, a liquid collecting tank 11 and a collecting plate 9, the liquid collecting tank 11 is arranged at the bottom of the material collecting shell 7, the collecting plate 9 is in a U-shaped strip shape, and both sides of the U-shaped collecting plate 9 are clamped and embedded at both sides of the top of the material collecting shell 7, a plurality of liquid outlet holes are further formed in the bottom of the collecting plate 9, a discharge port 12 is further formed in the side portion of the collecting shell 7, the conveying belt 8 is arranged right above the collecting plate 9, the conveying belt 8 is right opposite to the discharge port 12, and a pressing mechanism 5 is further arranged at the discharge port 12.

The crushing mechanism 6 further comprises four rotating shafts 14 arranged in the treatment chamber 2 in parallel and a driver 13 arranged outside the aggregate shell 7, a plurality of spiral cutting knives 14a are further arranged on the rotating shafts 14, the spiral cutting knives 14a are uniformly distributed along the length direction of the rotating shafts 14 and are arranged adjacently, the spiral cutting knives 14a on the rotating shafts 14 are arranged in a staggered mode, and the driver 13 can drive the four rotating shafts 14 to rotate synchronously relative to each other.

The metal scrap collecting device is characterized in that material guide plates 15 are further arranged in the material collecting chamber 3, the number of the material guide plates 15 is two, the two material guide plates 15 are respectively and symmetrically arranged right above the conveying belt 8, the material guide plates 15 are all obliquely arranged, one ends of the material guide plates 15 are fixedly connected to the side wall of the material collecting chamber 3, and material guide openings 15a capable of enabling metal scraps to pass through are formed in the other ends of the material guide plates 15 and the inner wall of the material collecting chamber 3.

Feeding mechanism 4 still includes cylinder 17, cutting off cutter 20, connecting rod 19, guide bar 18 and pay-off casing 16, pay-off casing 6 parallel arrangement is at the lateral part of feeder hopper 1 to link up mutually with feeder hopper 1, the quantity of guide bar 18 has two, and two guide bars 18 set up respectively in the both sides of pay-off casing 16, swing joint is respectively on the guide bar 18 of pay-off casing 16 both sides at the both ends of connecting rod 19, cylinder 17 sets up on the upper portion of pay-off casing 16 and is connected with connecting rod 19, the quantity of cutting off cutter 20 has a plurality of, and a plurality of cutting off cutter 20 all links firmly on connecting rod 19, a plurality of cutting off cutter 20 all sets up along the length direction equipartition of connecting rod 19.

The pressing mechanism 5 further comprises a hydraulic cylinder 22, a driving rod 23, a stop block 23 and a pressing shell 21, the pressing shell 21 is long and the upper portion of the pressing shell 21 is provided with a waste inlet 25, the waste inlet 25 is arranged at the discharge port 12, the hydraulic cylinder 22 is fixedly connected to the pressing shell 21, the output end of the hydraulic cylinder 22 is connected with the driving rod 23, the stop block 24 is rectangular and is matched with the inner cavity of the pressing shell 21, the stop block 24 is fixed at the end portion of the driving rod 23, the driving rod 23 and the stop block 24 can be moved along the inner wall of the pressing shell 21 through the driving of the hydraulic cylinder 22, and the waste outlet is formed in the outer portion of the pressing shell 21.

Chutes 26 have been all still seted up to the both sides of collection shell 7, gyro wheel 27 has still been installed to the both sides of collecting plate 9, gyro wheel 27 slides and inlays in chute 26, the tip of collecting plate 9 still has the handle.

A flexible baffle is further arranged at the discharge port 12.

Universal wheels 28 are arranged at the bottoms of the material collecting chamber 3 and the pressing mechanism 5.

The metal waste containing cutting fluid is conveyed to the feeding mechanism 4 and driven by the cylinder 17, and the connecting rod 19 reciprocates up and down along the guide rods 18 at the two sides of the feeding shell 16, the plurality of cutting knives 20 on the connecting rod 19 can primarily cut off the metal waste in the feeding shell 16 and can cut off larger metal waste, the primarily cut off metal waste is conveyed into the feeding hopper 1 through the feeding mechanism 4, the four rotating shafts 14 can be driven to rotate synchronously relative to each other by the driver 13, the plurality of rotating shafts 14 and the plurality of spiral cutting knives 14a are arranged in a staggered way, the metal waste to be treated in the feeding hopper 1 can be further crushed, the crushing effect is good, the metal waste is crushed by the crushing mechanism 3, the crushed metal waste passes through the guide plate 15 at the upper part and finally is guided to the conveying belt 8 through the guide plate 15 at the lower part, the metal waste can be separated from the cutting fluid, a plurality of liquid outlet holes are formed in the bottom of the U-shaped collecting plate 9, the cutting fluid can flow into the liquid collecting tank 11 through the liquid outlet holes, meanwhile, the collecting plate 9 can be taken out along the collecting shell 7 through a handle at the end part of the collecting plate 9 and a roller 27 at the side part of the collecting plate 9, so that the cleaning is convenient, the crushed metal waste on the conveyer belt 8 is conveyed to the discharge port 12, the pressing mechanism 5 is arranged under the conveyer belt 8 extending out of the discharge port 12, the crushed metal waste can fall into the pressing shell 21 under the conveying of the conveyer belt 8, the driving rod 23 is driven by the hydraulic cylinder 22, the end part of the driving rod 23 is connected with a stop block 24, the rectangular stop block 24 moves inwards along the inner wall of the pressing shell 21 for pressing and pressing the metal waste in the pressing shell 21 into blocky metal waste, and finally, the blocky metal waste can be discharged from the waste outlet, the metal waste after compression occupies small space, and has low recovery and transportation cost and convenient operation.

Claims (8)

1. A novel machine tool waste residue processor is characterized by comprising a feed hopper, a processing chamber and a collecting chamber, wherein the section of the feed hopper is trapezoidal, the top of the feed hopper is provided with an opening, the side part of the feed hopper is also connected with a feeding mechanism, the processing chamber is connected with the lower part of the feed hopper, the processing chamber is also internally provided with a crushing mechanism, the feed hopper is communicated with the crushing mechanism in the processing chamber, the collecting chamber is arranged at the lower part of the processing chamber, the collecting chamber also comprises a collecting shell, a conveying belt, a filtering screen, a liquid collecting tank and a collecting plate, the conveying belt, the filtering screen, the liquid collecting tank and the collecting plate are arranged in the collecting shell, the liquid collecting tank is arranged at the bottom of the collecting shell, the collecting plate is in a U-shaped strip shape, the two sides of the U-shaped collecting plate are clamped and embedded at the two sides of the top of the collecting shell, the bottom of the collecting plate is also provided with a plurality of liquid outlet holes, the side part of the collecting shell is also provided with a discharge hole, the conveyer belt sets up directly over the flitch that gathers materials, and the conveyer belt is just to discharge gate department, discharge gate department still is equipped with pressing mechanism.

2. The novel machine tool waste residue processor as claimed in claim 1, wherein the crushing mechanism further comprises four rotating shafts arranged in the processing chamber in parallel and a driver arranged outside the aggregate shell, the rotating shafts are further provided with a plurality of helical cutting knives which are uniformly arranged along the length direction of the rotating shafts, two adjacent helical cutting knives on the rotating shafts are arranged in a staggered manner, and the driver can drive the four rotating shafts to rotate synchronously and relatively.

3. The novel machine tool waste residue processor as claimed in claim 2, wherein there are two guide plates in the material collecting chamber, and the two guide plates are symmetrically disposed right above the conveyor belt, and are all disposed obliquely, one end of each guide plate is fixedly connected to the side wall of the material collecting chamber, and the other end of each guide plate and the inner wall of the material collecting chamber form a guide opening through which the metal waste can pass.

4. The novel machine tool waste residue processor according to claim 3, wherein the feeding mechanism further comprises an air cylinder, cutting knives, connecting rods, guide rods and a feeding shell, the feeding shell is arranged on the side portion of the feeding hopper in parallel and communicated with the feeding hopper, the number of the guide rods is two, the two guide rods are respectively arranged on two sides of the feeding shell, two ends of each connecting rod are respectively movably connected to the guide rods on two sides of the feeding shell, the air cylinder is arranged on the upper portion of the feeding shell and connected with the connecting rods, the number of the cutting knives is provided with a plurality of cutting knives which are fixedly connected to the connecting rods, and the plurality of cutting knives are uniformly distributed along the length direction of the connecting rods.

5. The novel machine tool waste residue processor as claimed in claim 4, wherein the pressing mechanism further comprises a hydraulic cylinder, a driving rod, a stopper, and a pressing housing, the pressing housing is in a long strip shape, the upper portion of the pressing housing is further opened with a waste inlet, the waste inlet is disposed at the discharge port, the hydraulic cylinder is fixedly connected to the pressing housing, the output end of the hydraulic cylinder is connected to the driving rod, the stopper is in a rectangular shape and is matched with the inner cavity of the pressing housing, the stopper is fixed at the end portion of the driving rod, the driving rod and the stopper can be moved along the inner wall of the pressing housing by the driving of the hydraulic cylinder, and the outside of the pressing housing is further provided with a waste outlet.

6. The novel machine tool waste residue processor as claimed in claim 5, wherein sliding grooves are formed in both sides of the aggregate housing, rollers are further mounted on both sides of the collecting plate, the rollers are slidably embedded in the sliding grooves, and a handle is further arranged at the end of the collecting plate.

7. A novel machine tool waste residue treatment machine as claimed in claim 6, wherein a flexible baffle is also provided at the discharge port.

8. The novel machine tool waste residue processor as claimed in claim 7, wherein universal wheels are arranged at the bottom of the material collecting chamber and the bottom of the pressing mechanism.

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