CN111266914B

CN111266914B - Scrap iron cleaning device for cutting

Info

Publication number: CN111266914B
Application number: CN202010313552.3A
Authority: CN
Inventors: 周泽强
Original assignee: Shenzhen Xindingli Industrial Co ltd
Current assignee: Shenzhen xindingli Industrial Co.,Ltd.
Priority date: 2020-04-20
Filing date: 2020-04-20
Publication date: 2021-04-20
Anticipated expiration: 2040-04-20
Also published as: CN111266914A

Abstract

The invention discloses an iron scrap cleaning device for cutting, which comprises an outer shell, wherein a moving cavity is arranged in the outer shell, the opening of the moving cavity faces forwards, an iron scrap cleaning block is arranged in the upper end wall of the moving cavity in a sliding manner, a sliding cavity is arranged in the iron scrap cleaning block, a moving assembly is arranged in the sliding cavity, a liquid conveying cavity is arranged on the right side of the moving cavity, a rotating cavity is arranged on the right side of the liquid conveying cavity, a transmission cavity is arranged on the right side of the rotating cavity, and a transmission assembly is arranged in the transmission cavity. And the cooling liquid and the scrap iron can not fall to the bottom of the machine tool, so that the machine tool is difficult to clean.

Description

Scrap iron cleaning device for cutting

Technical Field

The invention relates to the technical field of scrap iron cleaning, in particular to a scrap iron cleaning device for cutting.

Background

The lathe can produce on iron fillings are stained with the cutter during cutting process, lead to the cutter temperature to rise fast, make the cutter head temperature rise and make the hardness of cutter head descend, and when ordinary lathe processing cooling liquid cooling spouted fast excessively, the coolant liquid was jetted out easily, and the coolant liquid after the cooling flows on the lower end wall of lathe, lead to the lathe to be difficult to the clearance, and because it is higher to take away iron fillings content in the iron fillings messenger cooling liquid through the coolant liquid, make the recovery degree of difficulty of coolant liquid rise.

The application illustrates an iron fillings cleaning device for cutting can solve above-mentioned problem.

Disclosure of Invention

Aiming at the technical defects, the invention provides the scrap iron cleaning device for cutting, which can overcome the defects.

The scrap iron cleaning device for cutting comprises an outer shell, wherein a moving cavity is arranged in the outer shell, the opening of the moving cavity faces forwards, an scrap iron cleaning block is arranged on the upper end wall of the moving cavity in a sliding mode, a sliding cavity is arranged in the scrap iron cleaning block, a moving assembly is arranged in the sliding cavity, a liquid conveying cavity is arranged on the right side of the moving cavity, a rotating cavity is arranged on the right side of the liquid conveying cavity, a transmission cavity is arranged on the right side of the rotating cavity, and a transmission assembly is arranged in the transmission cavity;

the transmission assembly comprises a motor fixedly arranged in the right end wall of the transmission cavity, the left side of the motor is in power connection with a right transmission shaft, the right transmission shaft is fixedly provided with a lower transmission helical gear, the upper side of the lower transmission helical gear is in gear meshing connection with a rotating helical gear, the rotating helical gear is fixedly arranged on a lower rotating shaft, the left end of the lower rotating shaft is rotatably arranged on the right end surface of the left sliding magnet, the left side of the left sliding magnet is in magnetic connection with an electromagnet fixedly arranged on the left end wall of the transmission cavity, the right end of the lower rotating shaft is rotatably arranged in the left end surface of the right sliding magnet, the right side of the right sliding magnet is provided with a connecting magnet fixedly arranged on the right end wall of the transmission cavity, the upper side of the rotating helical gear is in gear meshing connection with an upper, the upper rotating shaft is rotatably arranged between the transmission cavity and the rotating cavity, and a liquid pumping circulation assembly is arranged in the rotating cavity;

the liquid pumping circulation assembly comprises a rotating block fixedly mounted on the upper rotating shaft extending into the rotating cavity, a pawl is connected to the rotating block, a gear is sleeved on the rotating block, a ratchet meshed with the pawl and connected with the inner side of the gear is fixedly arranged, the moving assembly comprises an air pump fixedly mounted in the right end wall of the sliding cavity, an air cylinder is arranged at the left end of the air pump in a power connection mode, a fixed block is fixedly mounted at the left end of the air cylinder, a strong magnet is fixedly mounted in the lower end wall of the iron chip cleaning block, a sliding groove with a downward opening is formed in the iron chip cleaning block, the fixed block is slidably mounted in the sliding groove, the lower end of the fixed block extends to the lower end face of the iron chip cleaning block and is provided with a cleaning sliding block, the cleaning sliding block is slidably mounted in the lower end face of the iron chip cleaning block, and a processing box is fixedly mounted on the, the processing incasement is equipped with the process chamber, the process chamber opening is forward and rotate between the end wall about the process chamber and install the glass axis of rotation, glass axis of rotation lower extreme fixed mounting is equipped with glass and blocks the piece, glass blocks the piece and blocks the opening part that the process chamber is forward.

Preferably, a left inner thread block is arranged on the lower end wall of the moving cavity in a sliding manner, the upper end of the left inner thread block extends into the processing cavity, a tool clamping block is fixedly arranged on the upper end surface of the processing cavity, a cutting tool is arranged in the tool clamping block, a workpiece groove is arranged on the left side of the left opening of the processing cavity and is used for placing a workpiece, so that the workpiece is processed in the processing cavity, a left iron scrap pipeline is fixedly arranged on the rear end surface of the iron scrap cleaning block, a left iron scrap box is communicated below the left iron scrap pipeline, a left inclined surface is arranged on the lower end surface in the left iron scrap pipeline, the right end of the left iron scrap pipeline extends into the processing cavity, a right iron scrap pipeline is arranged on the right side of the left iron scrap pipeline and is fixedly arranged on the lower end surface of the iron scrap cleaning block, and the left end of the right iron scrap pipeline extends into the processing, the right iron scrap pipeline is communicated with a right iron scrap box at the rear part, a right inclined plane is arranged on the lower end face inside the right iron scrap pipeline, and a lower stretching pipeline is fixedly installed in the right end face of the machining cavity.

Preferably, the right side transmission shaft left end is rotated and is installed the transmission chamber with remove between the chamber, the right side transmission shaft left end is rotated and is installed in removing the chamber left end wall, left side internal thread piece threaded connection is in on the right side transmission shaft, the fixed right internal thread piece of having installed of iron fillings clearance piece right-hand member face, right side internal thread piece lower extreme slidable mounting be in removing the lower terminal wall in chamber, right side internal thread piece threaded connection is in on the right side transmission shaft, right side internal thread piece is located left side internal thread piece right side.

Preferably, an upper transmission gear is arranged above the gear in a meshed connection mode, the upper transmission gear is fixedly mounted on a connecting shaft, the left end of the connecting shaft is rotatably mounted in the left end wall of the rotating cavity, the connecting shaft rotates in the rotating cavity and the liquid transmission cavity, a liquid pumping fan is fixedly mounted on the connecting shaft extending into the liquid transmission cavity, an upper transmission pipeline is arranged above the liquid transmission cavity in a communicated mode, a lower transmission pipeline is arranged below the liquid transmission cavity in a communicated mode, a cooling liquid tank is arranged below the liquid transmission cavity, the lower end of the lower transmission pipeline extends into the cooling liquid tank, the right end of the lower stretching pipeline extends into the left end wall of the cooling liquid tank, an upper stretching pipeline is fixedly connected to the rear side of the upper transmission pipeline, a left transmission pipeline is fixedly mounted on the front side of the upper stretching pipeline, a spray head is fixedly mounted in the processing cavity at the front end of the left transmission pipeline, the cooling liquid box is characterized in that a fixed magnet block located below the lower extension pipeline is fixedly arranged on the front end wall of the cooling liquid box, and a filter block fixedly arranged on the end wall of the cooling liquid box is arranged below the fixed magnet block.

The beneficial effects are that: this device can be not stained with the cutter to the iron fillings that cutting process lathe produced, reduce the cutter and increase thermal speed, and the processing of this device is processed at the processing incasement, prevent that the cutter coolant liquid from flying in disorder, and iron fillings clearance piece has reduced the iron fillings that the cooling was taken away, thereby reduce iron fillings wherein and can not let the very high iron fillings of temperature make the coolant liquid rise fast when making the coolant liquid retrieve, and coolant liquid and iron fillings can not fall to the bottom of lathe, lead to the lathe to be difficult to the clearance.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic view of C-C in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic view of D-D in FIG. 1 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a scrap iron cleaning device for cutting, which comprises an outer shell 28, wherein a moving cavity 20 is arranged in the outer shell 28, the opening of the moving cavity 20 faces forwards, an scrap iron cleaning block 13 is arranged on the upper end wall of the moving cavity 20 in a sliding mode, a sliding cavity 19 is arranged in the scrap iron cleaning block 13, a moving assembly is arranged in the sliding cavity 19, a liquid conveying cavity 27 is arranged on the right side of the moving cavity 20, a rotating cavity 48 is arranged on the right side of the liquid conveying cavity 27, a transmission cavity 64 is arranged on the right side of the rotating cavity 48, a transmission assembly is arranged in the transmission cavity 64 and comprises a motor 57 fixedly arranged in the right end wall of the transmission cavity 64, a right transmission shaft 29 is arranged on the left side of the motor 57 in a power connection mode, a lower transmission helical gear 58 is fixedly arranged on the right transmission shaft 29, a rotating helical gear 62 is arranged above the, the rotating bevel gear 62 is fixedly arranged on the lower rotating shaft 61, the left end of the lower rotating shaft 61 is rotatably arranged on the right end surface of the left sliding magnet 56, the left side of the left sliding magnet 56 is provided with the electromagnet 55 fixedly arranged on the left end wall of the transmission cavity 64 in a magnetic connection manner, the right end of the lower rotating shaft 61 is rotatably arranged in the left end surface of the right sliding magnet 60, the right side of the right sliding magnet 60 is provided with the connecting magnet 59 fixedly arranged on the right end wall of the transmission cavity 64, the upper portion of the rotating bevel gear 62 is provided with the upper rotating bevel gear 63 in a gear engagement manner, the upper rotating bevel gear 63 is fixedly arranged on the upper rotating shaft 54, the upper rotating shaft 54 is rotatably arranged between the transmission cavity 64 and the rotating cavity 48, the rotating cavity 48 is internally provided with the liquid pumping circulation component, the liquid pumping circulation component comprises the rotating block 53 fixedly arranged on the upper rotating shaft, the iron chip cleaning device is characterized in that a pawl 52 is connected to a rotating block 53, a gear 50 is sleeved on the rotating block, ratchets 51 connected with the pawl 52 in a meshed mode are fixedly arranged on the inner side of the gear 50, the moving assembly comprises an air pump 21 fixedly installed in the right end wall of a sliding cavity 19, an air cylinder 17 is arranged at the left end of the air pump 21 in a power connection mode, a fixed block 15 is fixedly installed at the left end of the air cylinder 17, a strong magnet 18 is fixedly installed in the lower end wall of the iron chip cleaning block 13, a sliding groove 16 with a downward opening is formed in the iron chip cleaning block 13, the fixed block 15 is slidably installed in the sliding groove 16, the lower end of the fixed block 15 extends to the lower end face of the iron chip cleaning block 13 and is provided with a cleaning sliding block 14, the cleaning sliding block 14 is slidably installed in the lower end face of the iron chip cleaning block 13, and a processing, be equipped with processing chamber 35 in the processing case 66, processing chamber 35 opening is forward and rotate between the end wall about processing chamber 35 and install glass axis of rotation 39, glass axis of rotation 39 lower extreme fixed mounting is equipped with glass stop block 38, glass stop block 38 blocks processing chamber 35 opening part forward.

Beneficially, a left inner thread block 33 is slidably mounted on the lower end wall of the moving cavity 20, the upper end of the left inner thread block 33 extends into the processing cavity 35, a tool clamping block 34 is fixedly mounted on the upper end surface of the processing cavity 35, a cutting tool is mounted in the tool clamping block 34, a workpiece groove 36 is formed in the left opening of the processing cavity 35 towards the left, a workpiece is placed in the workpiece groove 36, the workpiece is processed in the processing cavity 35, a left iron chip pipeline 12 is fixedly mounted on the rear end surface of the iron chip cleaning block 13, a left iron chip box 11 is communicated with the lower portion of the left iron chip pipeline 12, a left inclined surface is formed on the lower end surface in the left iron chip pipeline 12, the right end of the left iron chip pipeline 12 extends into the processing cavity 35, a right iron chip pipeline 22 is fixedly mounted on the lower end surface of the iron chip cleaning block 13 and is arranged on the right side of the left iron chip pipeline 12, the right side iron fillings pipeline 22 left end extends to in the process chamber 35, the intercommunication of right side iron fillings pipeline 22 rear is equipped with right iron fillings case 23, the inside lower terminal surface of right side iron fillings pipeline 22 is equipped with and is the inclined plane towards the right side, fixed mounting is equipped with down tensile pipeline 25 in the right terminal surface of process chamber 35.

Beneficially, the left end of the right transmission shaft 29 is rotatably installed between the transmission cavity 64 and the movable cavity 20, the left end of the right transmission shaft 29 is rotatably installed in the left end wall of the movable cavity 20, the left inner thread block 33 is in threaded connection with the right transmission shaft 29, the right end face of the iron scrap cleaning block 13 is fixedly installed with the right inner thread block 24, the lower end of the right inner thread block 24 is slidably installed in the lower end wall of the movable cavity 20, the right inner thread block 24 is in threaded connection with the right transmission shaft 29, and the right inner thread block 24 is located on the right side of the left inner thread block 33.

Beneficially, an upper transmission gear 47 is arranged above the gear 50 in a gear meshing connection mode, the upper transmission gear 47 is fixedly installed on a connection shaft 49, the left end of the connection shaft 49 is rotatably installed in the left end wall of the rotating cavity 48, a fixed rod 68 is fixedly installed on the left end surface of the gear 50, a connection shaft 69 is fixedly installed on the left end surface of the fixed rod 68, the left end of the connection shaft 69 is rotatably installed in the left end wall of the rotating cavity 48, the connection shaft 49 rotates in the rotating cavity 48 and the liquid transmission cavity 27, a liquid pumping fan 44 is fixedly installed on the connection shaft 49 extending into the liquid transmission cavity 27, an upper transmission pipeline 42 is arranged above the liquid transmission cavity 27 in a communicating mode, a lower transmission pipeline 31 is arranged below the liquid transmission cavity 27 in a communicating mode, a cooling liquid tank 30 is arranged below the liquid transmission cavity 27, and the lower end of the lower transmission pipeline 31 extends into the cooling liquid tank 30, the right end of the lower stretching pipeline 25 extends into the left end wall of the cooling liquid tank 30, the rear side of the upper transmission pipeline 42 is fixedly connected with the upper stretching pipeline 26, a left transmission pipeline 32 is fixedly installed on the front side of the upper stretching pipeline 26, the front end of the left transmission pipeline 32 extends into the processing cavity 35, a spray head 70 is fixedly installed in the processing cavity 35, a fixed magnet block 46 located below the lower stretching pipeline 25 is fixedly installed on the front end wall of the cooling liquid tank 30, and a filter block 45 fixedly installed on the end wall of the cooling liquid tank 30 is arranged below the fixed magnet block 46.

In the initial state: the right slide magnet 60 is magnetically connected to the connecting magnet 59: the rotating bevel gear 62 is gear-separated from the lower transmission bevel gear 58 and the upper transmission bevel gear 63.

When the work is started:

1. after the cutter is adjusted, the motor 57 is started, the motor 57 drives the right transmission shaft 29 to rotate, the right transmission shaft 29 rotates to drive the lower transmission bevel gear 58 and the right transmission shaft 29 to rotate, the right transmission shaft 29 rotates to drive the right internal thread block 24 and the left internal thread block 33 to move to the left, the left female screw block 33 is moved leftward to perform cutting work on the workpiece, and an operator can observe the working condition through the glass stopper 38, at the same time, the right female screw block 24 is moved leftward together with the left female screw block 33, the right internal thread block 24 moves leftwards to drive the scrap iron cleaning block 13 to move leftwards, the iron chip cleaning block 13 moves leftwards to drive the processing box 66 to move leftwards, and iron chips generated by cutting of the cutting tool are adsorbed on the lower end face of the strong magnet 18 above the processing box 66.

2. Meanwhile, the air pump 21 is started, the air pump 21 drives the air cylinder 17 to move rightwards, the air cylinder 17 moves rightwards so as to drive the cleaning sliding block 14 to move rightwards through the fixed block 15, so that the cleaning sliding block 14 pushes the iron filings on the lower end surface of the strong magnet 18 into the right iron filings pipeline 22, when the cleaning sliding block 14 moves rightwards into the right iron filings pipeline 22, the iron filings lose the magnetic force of the strong magnet 18 and fall onto the lower end surface of the right iron filings pipeline 22, then slide into the right iron filings box 23 through the lower end surface of the right iron filings pipeline 22, after the cleaning sliding block 14 moves rightwards to an extreme position, the air pump 21 reversely drives the air cylinder 17 to move leftwards, and the air cylinder 17 moves leftwards through the fixed block 15 so as to drive the cleaning sliding block 14 to move leftwards, the cleaning sliding block 14 moves leftwards so as to push the iron filings on the lower end face of the strong magnet 18 to move leftwards, so that the iron filings on the strong magnet 18 are pushed into the left iron filings pipeline 12, and after the iron filings move leftwards to leave the lower end face of the strong magnet 18, the iron filings leave the magnetic force adsorption of the strong magnet 18 and fall onto the lower end face of the left iron filings pipeline 12, and then slide into the left iron filings box 11.

3. When long-time processing and high-speed processing, because cutter cutting tool temperature straight-line rising, although powerful magnet 18 has taken away the iron fillings that cut off, prevent that iron fillings from being stained with on the area cutter, prevent that the heat of iron fillings from transmitting to the cutter, still rising always to the temperature of cutter, and ordinary lathe makes the coolant liquid spray out when carrying out the coolant liquid and spout on the cutter, and the cooling device setting of this device is in the process chamber 35 to the coolant liquid can fall the lower terminal surface of process chamber 35 then through stretch pipeline 25 down flows to in the coolant liquid case 30.

4. When the cooling of the cutting fluid needs to be started, the electromagnet 55 is started, the magnetic force generated by the electromagnet 55 is greater than the magnetic force of the connecting magnet 59, so as to drive the lower rotating shaft 61 to move leftwards, and the magnetic connection between the right sliding magnet 60 and the connecting magnet 59 is disconnected, the electromagnet 55 is magnetically connected with the left sliding magnet 56, so as to enable the rotating bevel gear 62 and the lower transmitting bevel gear 58 to be in gear engagement with the upper transmitting bevel gear 63, and at the same time, the lower transmitting bevel gear 58 rotates to drive the rotating bevel gear 62 to rotate, the rotating bevel gear 62 rotates to drive the upper transmitting bevel gear 63 to rotate, the upper transmitting bevel gear 63 rotates to drive the upper rotating shaft 54 to rotate, the upper rotating shaft 54 rotates to drive the rotating block 53 to rotate, and the rotating block 53 rotates to drive the gear 50 to rotate through the pawl 52 and the ratchet 51, the gear 50 rotates to drive the upper transmission gear 47 to rotate, the upper transmission gear 47 rotates to drive the connecting shaft 49 to rotate, the connecting shaft 49 rotates to drive the liquid pumping fan 44 to rotate, the liquid pumping fan 44 rotates to suck the cooling liquid in the cooling liquid tank 30 into the liquid transmission cavity 27 through the lower transmission pipeline 31, then the cooling liquid flows into the upper stretching pipeline 26 through the liquid transmission cavity 27 and then flows into the left transmission pipeline 32 through the upper stretching pipeline 26, the processing box 66 stretches the upper stretching pipeline 26 at the same time when moving leftwards, the cooling liquid flowing into the left transmission pipeline 32 is sprayed onto a workpiece through the spray head 70, so as to cool the workpiece, the reverse rotation of the motor 57 drives the right transmission shaft 29 to reversely rotate, so that the right internal thread block 24 and the left internal thread block 33 move rightwards, the right transmission shaft 29 rotates reversely to drive the rotary bevel gear 62 to rotate reversely, so as to drive the rotary block 53 to rotate reversely, and the rotary block 53 rotates reversely to slip on the ratchet teeth 51 through the pawl 52, so that the right transmission shaft 29 stops rotating.

5. When the coolant is not needed to be used, the electromagnet 55 is turned off, so that the electromagnet 55 loses magnetic force, the right sliding magnet 60 is attracted by the magnetic force of the connecting magnet 59 to drive the rotating bevel gear 62 to be separated from the lower transmission bevel gear 58 and the upper transmission bevel gear 63, the cooled coolant flowing into the coolant tank 30 carries some residual iron filings to flow onto the fixed magnet block 46, some small iron filings are magnetically connected to the upper end face of the fixed magnet block 46, and larger iron filings are flushed onto the upper end face of the filter block 45 by the flowing of the coolant, and then the coolant is filtered below the filter block 45 by the filter block 45 and then is adsorbed by the lower transmission pipeline 31 for circulating cooling.

6. After the machining is finished, the motor 57 is turned off, and the right iron scrap box 23 and the iron scrap in the left iron scrap box 11 are cleaned, so that the device is reset.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an iron fillings cleaning device for cutting, includes the shell body, its characterized in that: a moving cavity is arranged in the outer shell, the opening of the moving cavity faces forwards, an iron scrap cleaning block is arranged on the upper end wall of the moving cavity in a sliding mode, a sliding cavity is arranged in the iron scrap cleaning block, a moving assembly is arranged in the sliding cavity, a liquid conveying cavity is arranged on the right side of the moving cavity, a rotating cavity is arranged on the right side of the liquid conveying cavity, a transmission cavity is arranged on the right side of the rotating cavity, and a transmission assembly is arranged in the transmission cavity;

2. The iron piece cleaning device for cutting according to claim 1, characterized in that: a left inner thread block is arranged on the lower end wall of the moving cavity in a sliding manner, the upper end of the left inner thread block extends into the processing cavity, a tool clamping block is fixedly arranged on the upper end surface of the processing cavity, a cutting tool is arranged in the tool clamping block, a workpiece groove is arranged on the left side of the left opening of the processing cavity, a workpiece is placed in the workpiece groove, so that the workpiece is processed in the processing cavity, a left scrap iron pipeline is fixedly arranged on the rear end surface of the scrap iron cleaning block, a left scrap iron box is communicated below the left scrap iron pipeline, a left inclined surface is arranged on the lower end surface in the left scrap iron pipeline, the right end of the left scrap iron pipeline extends into the processing cavity, a right scrap iron pipeline is arranged on the right side of the left scrap iron pipeline and is fixedly arranged on the lower end surface of the scrap iron cleaning block, and the left end of the right scrap iron pipeline extends, the right iron scrap pipeline is communicated with a right iron scrap box at the rear part, a right inclined plane is arranged on the lower end face inside the right iron scrap pipeline, and a lower stretching pipeline is fixedly installed in the right end face of the machining cavity.

3. An iron chip cleaning device for cutting according to claim 2, characterized in that: the right side transmission shaft left end is rotated and is installed the transmission chamber with remove between the chamber, the right side transmission shaft left end is rotated and is installed in removing chamber left end wall, left side internal thread piece threaded connection be in on the right side transmission shaft, iron fillings clearance piece right-hand member face is fixed to be installed and is had right internal thread piece, right side internal thread piece lower extreme slidable mounting be in the lower extreme wall of removal chamber, right side internal thread piece threaded connection be in on the right side transmission shaft, right side internal thread piece is located left side internal thread piece right side.

4. A scrap iron cleaning apparatus for cutting according to claim 3, wherein: the upper gear is connected with an upper transmission gear in a gear meshing manner, the upper transmission gear is fixedly installed on a connecting shaft, the left end of the connecting shaft is rotatably installed in the left end wall of a rotating cavity, the connecting shaft is rotated in the rotating cavity and a liquid transmission cavity, a liquid pumping fan is fixedly installed on the connecting shaft extending into the liquid transmission cavity, an upper transmission pipeline is communicated and arranged above the liquid transmission cavity, a lower transmission pipeline is communicated and arranged below the liquid transmission cavity, a cooling liquid box is arranged below the liquid transmission cavity, the lower end of the lower transmission pipeline extends into the cooling liquid box, the right end of the lower stretching pipeline extends into the left end wall of the cooling liquid box, an upper stretching pipeline is fixedly connected and arranged on the rear side of the upper transmission pipeline, a left transmission pipeline is fixedly installed on the front side of the upper stretching pipeline, and a spray nozzle is fixedly installed and arranged in the processing cavity at the front end of the left transmission pipeline, the cooling liquid box is characterized in that a fixed magnet block located below the lower extension pipeline is fixedly arranged on the front end wall of the cooling liquid box, and a filter block fixedly arranged on the end wall of the cooling liquid box is arranged below the fixed magnet block.