CN221621600U - Machining center waste recovery device - Google Patents

Abstract

The utility model discloses a processing center waste recycling device, which comprises: the machining center body, clear away the subassembly, the symmetry sets up in the both sides of machining center body for the waste material that is located the workstation of the inside intermediate position department of machining center body is clear away, retrieves the subassembly, and the rigid coupling is in the bottom of machining center body, is used for the garbage collection that drops from the workstation, adjusting part, rotates to install in the inside one side of retrieving the subassembly, is used for adjusting the size of retrieving subassembly discharge waste material. According to the utility model, the cleaning components are arranged on both sides of the machining center body, when the workpiece is machined on the workbench to generate waste, the cleaning components are used for cleaning the waste, and the surface and the bottom of the workbench are cleaned during cleaning, so that the cleaning effect on the workbench is effectively ensured, and the waste generated by workpieces of different materials is subjected to grading treatment through the arranged adjusting components, so that the waste generated by the workpieces of different materials is effectively prevented from being mixed, and the waste recycling difficulty is reduced.

Description

Machining center waste recovery device

Technical Field

The utility model relates to the technical field of machining centers, in particular to a waste recycling device of a machining center.

Background

The numerical control machining center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for machining complex parts. The numerical control machining center is one of the numerical control machine tools with highest yield and most wide application in the world. The comprehensive processing capability is strong, more processing contents can be completed after the workpiece is clamped once, the processing precision is high, batch workpieces with medium processing difficulty are processed, the efficiency is 5-10 times that of common equipment, a large amount of waste materials can be generated during numerical control processing, and the waste materials can be gathered near a machine tool and are difficult to clean.

According to Chinese patent bulletin No.: CN210619136U discloses a numerical control machining center waste recovery device, including connection structure, outer box, moving structure and interior box, the top of outer box is connected with connection structure, the both sides of outer box bottom all are connected with the air outlet, the below of outer box is provided with moving structure, the inside of outer box is provided with interior box, form the vacuum chamber between interior box and the outer box, and the inside top and the bottom of vacuum chamber all evenly are provided with the strengthening rib, the acoustic celotex board is all evenly installed to the inside both sides of vacuum chamber, and one side of acoustic celotex board all evenly is provided with the amortization groove. When the recovery device is used, after the movable structure is fixedly installed in a working area, when the machine tool workbench is too high, the corrugated soft cylinder is pulled open, the connecting plate is used for connecting with the suction inlet, the negative pressure fan is started, suction is generated in the inner box body, and waste is sucked into the filter screen through the corrugated soft cylinder and collected. But when using above-mentioned recovery unit, the waste material is inside through the soft section of thick bamboo suction filter screen, and the inside waste material of machining center is difficult to inhale inside the filter screen through the soft section of thick bamboo of ripple to influence the recovery effect of waste material, and when using above-mentioned recovery unit, be difficult to distinguish the processing to the waste material of different volume sizes and different materials, when the work piece of processing different materials produced the piece of different materials, the waste material was mixed easily, and then increased the degree of difficulty of waste recovery.

Therefore, when the waste recycling device is used, waste in a processing center is difficult to recycle, and waste of different materials is difficult to distinguish and treat, so that the difficulty of waste recycling is increased.

Disclosure of utility model

In order to solve the problems, the utility model provides a waste recycling device of a processing center, which is used for removing waste in the processing center through a removing assembly, and the waste is distinguished and treated by different materials and different volumes through the mutual matching of the recycling assembly and an adjusting assembly.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

a machining center waste recovery device, comprising:

and (5) machining the center body.

And the cleaning assemblies are symmetrically arranged on two sides of the machining center body and are used for cleaning waste on a workbench positioned at the middle position inside the machining center body.

And the recovery component is fixedly connected to the bottom of the machining center body and is used for collecting waste falling from the workbench.

And the adjusting assembly is rotatably arranged on one side of the inside of the recycling assembly and used for adjusting the size of waste discharged by the recycling assembly.

Further preferably, the recovery assembly comprises:

the mounting seat is fixedly connected to the inner bottom of the machining center body.

The filter screen is fixedly connected at two ends of the mounting seat and is used for filtering waste with the volume smaller than the aperture of the filter screen.

The first collection bin is arranged between the workbench and the mounting seat and is used for collecting waste with the volume larger than the aperture of the filter screen.

The second collection bin is arranged in the mounting seat, has the same shape as the first collection bin and is used for collecting waste with the diameter smaller than the aperture of the mounting seat.

The first material discharging pipe is Y-shaped and is arranged at the middle position of the upper part in the mounting seat, the input end is arranged at the middle position of the upper part of the mounting seat, the output end extends to the mounting seat, and the length of the first material discharging pipe is parallel to the width direction of the mounting seat and is used for discharging waste materials with the collection volume larger than the aperture of the filter screen.

The second material discharging pipe is Y-shaped and is arranged in the installation seat, the input end of the second material discharging pipe is arranged in the middle of the second collecting bin, the output end of the second material discharging pipe extends to the installation seat, and the length of the second material discharging pipe is parallel to the width direction of the installation seat and is used for discharging waste materials with the collecting volume smaller than the aperture of the filter screen.

Further preferably, the first discharge pipe and the second discharge pipe have the same pore size and the same shape and size.

Further preferably, the purge assembly comprises:

the screw rods are in a plurality of groups and symmetrically installed on two sides of two ends of the machining center body in a rotating mode.

The connecting wheel is fixedly connected to the bottom of the screw rod.

The sliding block is connected to the screw rod in a threaded manner.

And the limiting rods are fixedly connected to the two sides of the machining center body at positions close to the screw rods, and the top ends of the two limiting rods penetrate through the sliding blocks and are used for limiting the movement track of the sliding blocks.

The driving motors are symmetrically fixedly connected at two ends of the machining center body.

The driving wheel is fixedly connected to the driving motor, and the driving wheel is connected with the connecting wheel through a belt.

It is further preferred that the fifth wheel and the drive wheel are mounted at equal heights.

Further preferably, the purge assembly further comprises:

the mounting rods are fixedly connected to two sides of the machining center body and are parallel to the width direction of the machining center body.

The rotating wheels are symmetrically and rotatably arranged on the mounting rods, the mounting positions of the rotating wheels correspond to the mounting positions of the screw rods, and the sliding blocks are meshed with the rotating wheels.

The connecting plate is provided with a plurality of connecting holes, fixedly connected to one side of the rotating wheel far away from the sliding block.

The air pipe is arranged between the sliding block and the rotating wheel.

The jet head is arranged at the output end of the gas transmission pipe, extends to two sides of the machining center body, and the rotating wheel is used for driving the jet head to be stored at two sides of the machining center body.

And the separating plates are hinged to two sides of the machining center body and used for preventing waste from damaging the jet head.

Further preferably, openings with the corresponding size of the separating plates are arranged on two sides of the machining center body.

Further preferably, the adjusting assembly comprises:

the rotating rod is rotatably arranged in the mounting seat and is close to the position between the first discharging pipe and the second discharging pipe, the rotating rod is parallel to the width direction of the mounting seat, and one end of the rotating rod extends out of the mounting seat.

The transmission gear is fixedly connected with the other end of the rotating rod.

And the rotating rod is rotatably arranged in the mounting seat and is close to the middle position of the output ends of the first discharging pipe and the second discharging pipe and is perpendicular to the width direction of the mounting seat.

The connecting gear is fixedly connected to the rotating rod and meshed with the transmission gear.

The baffle is fixedly connected to the upper part and the bottom of the rotating rod, the baffle at the upper part is positioned in the first discharging pipe, the baffle at the bottom is positioned in the second discharging pipe, and the baffle is used for carrying out batch treatment on the waste materials of the first discharging pipe and the second discharging pipe.

Further preferably, the diameter of the baffle is the same as the diameter of the first discharge pipe and the second discharge pipe.

Compared with the prior art, the utility model has the following advantages: through the clearance subassembly that processing center body both sides all set up, when processing the work piece and produce the waste material on the workstation, clear away the subassembly and clear away the waste material, and clear away workstation surface and bottom when clear away to effectively ensure the clean effect on the workstation, and the waste material after clearing away drops on retrieving the subassembly, retrieves the subassembly and carries out hierarchical processing according to the diameter size of waste material, thereby effectively improve to the waste material to retrieving the effect; through the adjusting part that sets up, carry out hierarchical processing to the waste material that different material work pieces produced, effectively prevent the waste material that different material work pieces produced and mix, and then improve the recovery effect of waste material, reduce the waste recovery degree of difficulty.

Drawings

Fig. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a schematic diagram of a cleaning assembly according to the present embodiment;

FIG. 3 is a schematic view of the recycling component of the present embodiment;

Fig. 4 is a schematic structural diagram of a first discharge pipe according to the present embodiment;

Fig. 5 is a schematic structural diagram of an adjusting component of the present embodiment.

Reference numerals: 1. a machining center body; 2. a purge assembly; 21. a screw rod; 22. a fifth wheel; 23. a sliding block; 24. a limit rod; 25. a driving motor; 26. a driving wheel; 27. a mounting rod; 28. a rotating wheel; 29. a connecting plate; 210. a gas pipe; 211. a jet head; 212. a separation plate; 3. a work table; 4. a recovery assembly; 41. a mounting base; 42. a filter screen; 43. a first collection bin; 44. a second collection bin; 45. a first discharge pipe; 46. a second discharge pipe; 5. an adjustment assembly; 51. a rotating lever; 52. a transmission gear; 53. a rotating rod; 54. a connecting gear; 55. and a baffle.

Detailed Description

The utility model discloses a numerical control machining center waste recycling device among the prior art, including connection structure, outer box, moving structure and interior box, the top of outer box is connected with connection structure, the both sides of outer box bottom all are connected with the air outlet, the below of outer box is provided with moving structure, the inside of outer box is provided with interior box, form the vacuum chamber between interior box and the outer box, and the inside top of vacuum chamber and bottom all evenly are provided with the strengthening rib, the acoustic celotex board is all evenly installed to the inside both sides of vacuum chamber, and one side of acoustic celotex board all evenly is provided with the amortization groove. When the recovery device is used, after the movable structure is fixedly arranged in the working area,

When the workbench of the machine tool is too high, the corrugated soft cylinder is pulled open, the connecting plate is connected with the suction inlet, the negative pressure fan is started, suction is generated in the inner box body, and waste is sucked into the filter screen through the corrugated soft cylinder and collected. But when using above-mentioned recovery unit, the waste material is inside through the soft section of thick bamboo suction filter screen of ripple, the inside waste material of machining center is difficult to inhale inside the filter screen through the soft section of thick bamboo of ripple, thereby influence the recovery effect of waste material, and when using above-mentioned recovery unit, be difficult to distinguish the waste material of different volume sizes and different materials and handle, when the work piece of processing different materials produces the piece of different materials, the waste material mixes easily, and then when having increased the degree of difficulty of waste recycling and having used above-mentioned waste recovery unit, be difficult to retrieve machining center's waste material, and be difficult to distinguish the waste material of different materials and handle, thereby the degree of difficulty of waste recycling.

Therefore, when the waste recycling device is used, waste in a machining center is difficult to recycle, and waste of different materials is difficult to distinguish and treat, so that the difficulty of waste recycling is increased.

Aiming at the technical problems, the application carries out the following design and conception: in order to solve the problems that the waste material of the processing center is inconvenient to clean and the waste material with different materials and different volumes is difficult to carry out grading treatment in the prior art, the waste material cleaning structure has better effect of cleaning the waste material in the processing center when being sucked into the filter screen through the corrugated soft cylinder than the prior art, and the aim of conveniently cleaning the waste material is fulfilled; it is assumed that the waste material filtering effect is better than that of the existing middle filter screen through a certain waste material grading structure, and the aim of conveniently grading waste materials with different volumes and different materials is fulfilled.

The utility model is described in further detail below with reference to fig. 1 to 5.

A machining center waste recycling apparatus, as shown in fig. 1, comprising:

A machining center body 1.

The cleaning components 2 are symmetrically arranged on two sides of the machining center body 1 and are used for cleaning waste materials on the workbench 3 positioned at the middle position inside the machining center body 1.

The recovery component 4 is fixedly connected to the bottom of the machining center body 1 and is used for collecting waste falling from the workbench 3.

The adjusting component 5 is rotatably arranged on one side inside the recycling component 4 and is used for adjusting the size of waste discharged by the recycling component 4.

Through the clearance subassembly 2 that processing center body 1 both sides all set up, when processing the work piece and produce the waste material on workstation 3, clear away the subassembly 2 and clear away the waste material, and clear away workstation 3 surface and bottom when clear away to effectively ensure the clean effect on the workstation 3, and the waste material after clearing away falls on recovery subassembly 4, recovery subassembly 4 carries out the hierarchical processing according to the diameter size of waste material, thereby effectively improve to the waste material to recovery effect; through the adjusting part 5 that sets up, carry out hierarchical processing to the waste material that different material work pieces produced, effectively prevent the waste material that different material work pieces produced and mix, and then improve the recovery effect of waste material, reduce the waste recovery degree of difficulty.

Specifically, as shown in fig. 2, 3 and 4, the recovery assembly 4 includes:

the mounting seat 41 is fixedly connected to the inner bottom of the machining center body 1.

The filter screen 42 is fixedly connected to two ends of the mounting seat 41 and is used for filtering waste materials with the volume smaller than the aperture of the filter screen 42.

A first collection bin 43, disposed between the table 3 and the mounting base 41, for collecting waste material having a volume greater than the aperture of the filter screen 42.

The second collecting bin 44 is disposed inside the mounting seat 41 and has the same shape as the first collecting bin 43, and is used for collecting waste materials with a diameter smaller than the aperture of the mounting seat 41.

The first discharging pipe 45 is Y-shaped and is arranged at the middle position of the upper part in the mounting seat 41, the input end is arranged at the middle position of the upper part of the mounting seat 41, the output end extends to the mounting seat 41, the length of the first discharging pipe is parallel to the width direction of the mounting seat 41 and is used for discharging waste with the collection volume larger than the aperture of the filter screen 42, and further, the diameter of the first discharging pipe 45 is larger than the aperture of the filter screen 42.

The second discharging pipe 46 is in a Y shape, is arranged at the bottom in the mounting seat 41, the input end of the second discharging pipe is arranged at the middle position of the second collecting bin 44, the output end of the second discharging pipe extends to the mounting seat 41, and the length of the second discharging pipe is parallel to the width direction of the mounting seat 41 and is used for discharging waste materials with the collecting volume smaller than the aperture of the filter screen 42.

Further, the waste materials generated by processing on the workbench 3 fall on the filter screen 42, the waste materials larger than the aperture of the filter screen 42 move into the first collecting bin 43 and are discharged from the first discharging pipe 45, the waste materials smaller than the aperture of the filter screen 42 fall into the second collecting bin 44 and are discharged from the second discharging pipe 46, and then grading treatment of the waste materials is achieved, and the recycling effect of the workpiece scraps is improved.

Specifically, the first discharge pipe 45 and the second discharge pipe 46 have the same pore size and the same shape and size.

Specifically, as shown in fig. 2, the purge assembly 2 includes:

The screw rods 21 are symmetrically arranged on two sides of two ends of the machining center body 1 in a rotating mode, wherein the number of the screw rods is multiple groups.

The connecting wheel 22 is fixedly connected to the bottom of the screw rod 21.

The sliding block 23 is in threaded connection with the screw rod 21, and further, internal threads matched with the threads on the screw rod 21 are arranged in the sliding block 23.

The limiting rods 24 are fixedly connected to the two sides of the machining center body 1 at positions close to the screw rods 21, and the top ends of the two limiting rods 24 penetrate through the sliding blocks 23 and are used for limiting the movement track of the sliding blocks 23.

The driving motors 25 are symmetrically fixedly connected at two ends of the machining center body 1.

The driving wheel 26 is fixedly connected to the driving motor 25, and the driving wheel 26 is connected with the fifth wheel 22 through a belt.

Further, the driving motor 25 drives the fifth wheel 22 to rotate through the belt of the driving wheel 26, so that the screw rods 21 rotate, synchronous rotation of the two screw rods 21 is achieved, the sliding block 23 moves on the screw rods 21, specifically, the sliding block 23 moves on the screw rods 21 when the screw rods 21 rotate clockwise, and the sliding block 23 moves downwards on the screw rods 21 when the screw rods 21 rotate anticlockwise, so that flexibility of the sliding block 23 on the screw rods 21 is improved.

Specifically, the mounting heights of the fifth wheel 22 and the drive wheel 26 are equal, improving the stability of the connection between the fifth wheel 22 and the drive wheel 26.

Specifically, as shown in fig. 2, the purge assembly 2 further includes:

The mounting rods 27 are fixedly connected to both sides of the machining center body 1 and are parallel to the width direction of the machining center body 1.

The rotating wheel 28 is symmetrically and rotatably arranged on the mounting rod 27, the mounting position of the rotating wheel 28 corresponds to the mounting position of the screw rod 21, the sliding block 23 is meshed with the rotating wheel 28, further, one side of the sliding block 23, which is close to the rotating wheel 28, is fixedly connected with a connecting strip, the connecting strip is provided with insections, and one side of the rotating wheel 28, which is close to the connecting strip, is provided with insections.

The connecting plate 29 is fixedly connected to one side of the rotating wheel 28 far away from the sliding block 23, and further, the two sides of the machining center body 1 are provided with spaces for rotating with the connecting plate 29 circumferentially.

The air pipe 210 is arranged between the sliding block 23 and the rotating wheel 28, and further, the input end of the air pipe 210 is externally connected with an air pump.

The jet heads 211 are installed at the output ends of the air delivery pipes 210, and extend to two sides of the machining center body 1, and the rotating wheels 28 are used for driving the jet heads 211 to be accommodated at two sides of the machining center body 1.

The separating plate 212 is hinged to two sides of the machining center body 1 and used for preventing waste from damaging the air jet head 211, and further, the separating plate 212 is driven to rotate when the air jet head 211 stretches out, and when the air jet head 211 is contained, the separating plate 212 is closed with the side wall of the machining center body 1.

Further, when the sliding block 23 moves up on the screw rod 21, the sliding block 23 drives the rotating wheel 28 to rotate clockwise through the connecting bar, and then the rotating wheel 28 drives the jet head 211 to be contained on two sides of the machining center body 1 through the connecting plate 29, meanwhile, the separating plate 212 is closed with the side wall of the machining center body 1, when the sliding block 23 moves down on the screw rod 21, the sliding block 23 drives the rotating wheel 28 to rotate anticlockwise through the connecting bar, and then the rotating wheel 28 drives the jet head 211 to move out of two sides of the machining center body 1 through the connecting plate 29, meanwhile, the jet head 211 drives the separating plate 212 to form an included angle with the side wall of the machining center body 1, and then when in use, the rotating wheel 28 can drive the jet head 211 to rotate, so that the angle of the jet head 211 is adjusted, and the waste material removing effect of the jet head 211 is improved.

Specifically, openings with the size corresponding to the position of the separating plate 212 are formed on two sides of the machining center body 1.

Further, when the jet head 211 is accommodated in the side wall of the machining center body 1, the separating plate 212 is closed with the side wall of the machining center body 1, so that the jet head 211 is effectively prevented from being damaged by chips when the workpiece is machined on the workbench 3.

Specifically, as shown in fig. 1, 2, 4 and 5, the adjusting assembly 5 includes:

The rotating rod 51 is rotatably installed in the mounting seat 41 at a position near between the first discharge pipe 45 and the second discharge pipe 46, parallel to the width direction of the mounting seat 41, and one end of the rotating rod 51 protrudes onto the mounting seat 41.

The transmission gear 52 is fixedly connected to the other end of the rotation rod 51.

The rotating rod 53 is rotatably installed in the installation seat 41 at an intermediate position near the output ends of the first discharge pipe 45 and the second discharge pipe 46, perpendicular to the width direction of the installation seat 41.

The connecting gear 54 is fixedly connected to the rotating lever 51, and is engaged with the transmission gear 52.

The baffle plate 55 is fixedly connected to the upper part and the bottom of the rotating rod 53, the baffle plate 55 positioned at the upper part is positioned in the first discharging pipe 45, the baffle plate 55 positioned at the bottom is positioned in the second discharging pipe 46, and the batch treatment is carried out on the waste materials of the first discharging pipe 45 and the second discharging pipe 46.

Further, the rotating rod 51 drives the connecting gear 54 and the rotating rod 53 to rotate through the transmission gear 52, and then the rotating rod 53 drives the baffle 55 to move, so that the baffle 55 is isolated from different ports of the first discharging pipe 45 and the second discharging pipe 46, and waste materials of different materials are classified when the workbench 3 processes the workpieces of different materials to generate waste materials of different materials, waste material mixing generated by the workpieces of different materials is effectively prevented, and recycling effect of the waste materials is improved.

Specifically, the diameter of the baffle 55 is the same as the diameters of the first discharge pipe 45 and the second discharge pipe 46, so that the tightness of the baffle 55 in the first discharge pipe 45 and the second discharge pipe 46 is improved, and omission of materials is effectively prevented.

Principle of operation

Before using, the driving motor 25 is powered on and externally connected with a control panel, the input end of the air pipe 210 is externally connected with an air pump, when in use, a workpiece is processed on the workbench 3, generated scraps fall on the workbench 3 and around the workbench 3, when the processing is finished, the driving motor 25 is started, the driving motor 25 drives the connecting wheel 22 to rotate through a belt of the driving wheel 26, the screw 21 further rotates, two screw 21 synchronously rotate, particularly, the sliding block 23 moves downwards at the screw 21 when the screw 21 rotates anticlockwise, the sliding block 23 drives the rotating wheel 28 to rotate anticlockwise through a connecting bar, the rotating wheel 28 drives the air jet head 211 to move out of two sides of the processing center body 1 through the connecting plate 29, meanwhile, the air jet head 211 drives the separating plate 212 to form an included angle with the side wall of the processing center body 1, at the moment, the air pump is started, the air is sprayed out from the air spraying head 211 to blow the scraps on the workbench 3 onto the mounting seat 41, the filter screen 42 filters the scraps, the scraps with the volume larger than the aperture of the filter screen 42 are moved to the position of the first collecting bin 43, discharged through one of the ports of the first discharging pipe 45, the scraps with the volume smaller than the aperture of the filter screen 42 fall to the position of the second collecting bin 44, discharged through one of the ports of the second discharging pipe 46, and when the workbench 3 processes workpieces with different materials to generate scraps with different materials, the movable rod 51 drives the connecting gear 54 and the rotary rod 53 to rotate through the transmission gear 52, and then the rotary rod 53 drives the baffle 55 to move, so that the baffle 55 isolates the different ports of the first discharging pipe 45 and the second discharging pipe 46, the waste with different materials is classified, and the waste mixture generated by the workpieces with different materials is effectively prevented.

The present embodiment is merely illustrative of the utility model and is not intended to limit the utility model, and those skilled in the art, after having read the present specification, may make modifications to the embodiment without creative contribution as required, but are protected by patent laws within the protection scope of the present utility model.

Claims (9)

1. A machining center waste recycling device, comprising:

a machining center body (1);

The cleaning assemblies (2) are symmetrically arranged on two sides of the machining center body (1) and are used for cleaning waste materials on a workbench (3) positioned in the middle position inside the machining center body (1);

The recovery assembly (4) is fixedly connected to the bottom of the machining center body (1) and is used for collecting waste falling from the workbench (3);

And the adjusting component (5) is rotatably arranged on one side inside the recycling component (4) and is used for adjusting the size of the waste discharged by the recycling component (4).

2. The recycling apparatus according to claim 1, characterized in that the recycling assembly (4) comprises:

The mounting seat (41) is fixedly connected to the inner bottom of the machining center body (1);

The filter screen (42) is fixedly connected to two ends of the mounting seat (41) and is used for filtering waste with the volume smaller than the aperture of the filter screen (42);

The first collecting bin (43) is arranged between the workbench (3) and the mounting seat (41) and is used for collecting waste with the volume larger than the aperture of the filter screen (42);

The second collecting bin (44) is arranged in the mounting seat (41) and has the same shape as the first collecting bin (43) and is used for collecting waste materials with the diameter smaller than the aperture of the mounting seat (41);

the first discharging pipe (45) is Y-shaped and is arranged at the middle position of the inner upper part of the mounting seat (41), the input end of the first discharging pipe is arranged at the middle position of the upper part of the mounting seat (41), the output end of the first discharging pipe extends to the mounting seat (41), and the length of the first discharging pipe is parallel to the width direction of the mounting seat (41) and is used for discharging waste with the collection volume larger than the aperture of the filter screen (42);

The second discharging pipe (46) is Y-shaped and is arranged at the inner bottom of the mounting seat (41), the input end of the second discharging pipe is arranged at the middle position of the second collecting bin (44), the output end of the second discharging pipe extends onto the mounting seat (41), the length of the second discharging pipe is parallel to the width direction of the mounting seat (41), and the second discharging pipe is used for discharging waste materials with the collecting volume smaller than the aperture of the filter screen (42).

3. The recycling apparatus according to claim 2, characterized in that the first discharge pipe (45) and the second discharge pipe (46) have the same pore size, shape and size.

4. The recycling apparatus according to claim 1, characterized in that the purge assembly (2) comprises:

The screw rods (21) are symmetrically arranged at two sides of two ends of the machining center body (1) in a rotating mode, wherein the number of the screw rods is multiple;

the connecting wheel (22) is fixedly connected to the bottom of the screw rod (21);

the sliding block (23) is connected to the screw rod (21) in a threaded manner;

The limiting rods (24) are fixedly connected to the positions, close to the screw rods (21), on two sides of the machining center body (1), and the top ends of the two limiting rods (24) penetrate through the sliding blocks (23) and are used for limiting the movement track of the sliding blocks (23);

The driving motors (25) are symmetrically fixedly connected to two ends of the machining center body (1);

The driving wheel (26) is fixedly connected to the driving motor (25), and the driving wheel (26) is connected with the connecting wheel (22) through a belt.

5. The recovery device according to claim 4, wherein the coupling wheel (22) and the driving wheel (26) are mounted at equal heights.

6. The recycling apparatus according to claim 5, characterized in that said purge assembly (2) further comprises:

The mounting rods (27) are fixedly connected to two sides of the machining center body (1) and are parallel to the width direction of the machining center body (1);

A rotating wheel (28) symmetrically rotatably mounted on the mounting rod (27) at a mounting position corresponding to the mounting position of the screw rod (21), and the sliding block (23) is meshed with the rotating wheel (28);

the connecting plate (29) is fixedly connected to one side of the rotating wheel (28) far away from the sliding block (23);

a gas pipe (210) provided between the slider (23) and the rotating wheel (28);

The jet heads (211) are arranged at the output ends of the air delivery pipes (210) and extend to two sides of the machining center body (1), and the rotating wheels (28) are used for driving the jet heads (211) to be contained at two sides of the machining center body (1);

And the separating plates (212) are hinged to two sides of the machining center body (1) and are used for preventing waste materials from damaging the jet heads (211).

7. A recycling apparatus according to claim 3, characterized in that openings corresponding to the size of the separating plates (212) are provided on both sides of the machining center body (1).

8. The recycling apparatus according to claim 2, characterized in that the adjusting assembly (5) comprises:

A rotating rod (51) rotatably installed in the mounting seat (41) at a position close to a position between the first discharging pipe (45) and the second discharging pipe (46), the rotating rod being parallel to the width direction of the mounting seat (41), and one end of the rotating rod (51) extending to the mounting seat (41);

the transmission gear (52) is fixedly connected to the other end of the rotating rod (51);

A rotating rod (53) rotatably installed in the installation seat (41) at a position close to the middle of the output ends of the first discharging pipe (45) and the second discharging pipe (46), and perpendicular to the width direction of the installation seat (41);

A connecting gear (54) fixedly connected to the rotating rod (51) and meshed with the transmission gear (52);

Baffle (55), rigid coupling in upper portion and the bottom of rotary rod (53), be located the upper portion baffle (55) are in first row material pipe (45), be located the bottom baffle (55) are in second row material pipe (46), be used for to first row material pipe (45) with the waste material of second row material pipe (46) carries out batch processing.

9. The recycling apparatus according to claim 8, characterized in that the diameter of the baffle (55) is the same as the diameter of the first discharge pipe (45) and the second discharge pipe (46).